ICMTE 2017 THE 6TH INTERNATIONAL CONFERENCE OF MANUFACTURING TECHNOLOGY ENGINEERS

Transcription

1 ICMTE 2017 THE 6TH INTERNATIONAL CONFERENCE OF MANUFACTURING TECHNOLOGY ENGINEERS 62

2 ICMTE 2017 THE 6TH INTERNATIONAL CONFERENCE OF MANUFACTURING TECHNOLOGY ENGINEERS 62

3 IMCC THE 17TH INTERNATIONAL MANUFACTURING CONFERENCE IN CHINA CONTENTS WELCOME FROM CHAIRMAN OF IMCC... 3 WELCOME FROM PRESIDNENT OF KSMTE... 4 CONFERENCE COMMITTEES... 5 PROGRAMME... 7 INVITED SPEAKERS ACKNOWLEDGEMENTS IMPORTANT INFORMATION

4 ICMTE 2017 THE 6TH INTERNATIONAL CONFERENCE OF MANUFACTURING TECHNOLOGY ENGINEERS 2

5 IMCC THE 17TH INTERNATIONAL MANUFACTURING CONFERENCE IN CHINA WELCOME FROM CHAIRMAN OF IMCC Dear Colleagues and Friends, On behalf of the conference organizers, it is our great pleasure and honor to welcome you to Shenzhen to the 17th International Manufacturing Conference in China. The conference will provide a forum for all participants from various countries and regions in the world to present and exchange their innovative ideas and achievements in the advanced manufacturing technology. The first International Manufacturing Conference in China was held in Since then the conference has been successfully held sixteen times in eleven Chinese cities and Singapore. During the last 34 years, China successfully upgraded her manufacturing industry, and gradually shifted from the workshop of the world to a manufacturing power. Both the participants and the organizers of IMCC have contributed to this progress. And now the manufacturing industry has entered a new era. For the first time in the last four decades, manufacturing technology has become a major driving force in the new technology revolution. This means great opportunity for scholars and engineers all over the globe. So the IMCC opens her gate and associate with global cooperators, and we have the ICMTE to join us in this year s event. With global influence, the IMCC has become a perfect outpost to witness the great progresses of science and technology in manufacturing industry. And we wish the IMCC participants make greater achievements in the near future. As you know, the major driving forces in the new technology revolution include Intelligent Manufacturing and Additive manufacturing. Both themes are included in this conference. Besides, we also intensively focus on Advanced Manufacturing, Digital Manufacturing, Modern Design Methodology, Ultra-Precision Machining, Energy Beam Machining, EDM/ECM Machining, Modern Manufacturing and Management, MEMS and Micro-Nano Manufacturing, etc. These technologies remain the base of the manufacturing industry. And now that our eco-system is facing the threat of human activities, Green Manufacturing and Energy-saving Manufacturing Process represents our engineers goodwill to confront with this global challenge. These are the major issues this year and we will be always open to new cutting-edge topics. The 17th IMCC is held in Shenzhen, which is China s first Special Economic Zone, and one of the four largest and wealthiest cities of China, located immediately north of Hong Kong Special Administrative Region. Besides, Shenzhen is a major innovation center and an advanced manufacturing base of China. I wish all participants and accompanying persons a memorable IMCC 2017 and pleasant stay in Shenzhen. Dongming Guo Chairman of the International Manufacturing Conference in China (IMCC) 3

6 ICMTE 2017 THE 6TH INTERNATIONAL CONFERENCE OF MANUFACTURING TECHNOLOGY ENGINEERS WELCOME FROM PRESIDNENT OF KSMTE Dear Colleagues and Friends, Representing the Korean Society of Manufacturing Technology Engineers (KSMTE), I feel great honor to co-host the International Conference of Manufacturing in China (IMCC 2017) and the International Conference of Manufacturing Technology Engineers (ICMTE 2017) in Shenzhen, which is a center of the latest technology. First, I would like to express great gratitude to President Dongming Guo and other conference organizers and especially, Professor Jun Ni, who has dedicated a lot to the birth of the Korea-China joint conference. The conference is aimed at facilitating interactions among international researchers and engineers in the fields of advance manufacturing technology and additional fields such as mechanical design & computer aided engineering (CAE) and robotics & automation, with special focus on some cutting-edge fields, such as nanotechnology and sustainable manufacturing, and so on. The manufacturing technology has been playing a key role not only in contributing to current industry and economy, but also in creating high quality jobs for society. Therefore, many countries have stressed the importance of manufacturing technology as their governmental policy. Besides, under severe competition in a global environment, it is of much significance for countries to collaborate together towards a substantial advancement of manufacturing technology. Hence, we hope that this conference will provide a good opportunity to exchange professional experiences and to boost cooperative fellowships. In the meantime, the ICMTE 2018 will be held in Seoul, Korea, from October 2 to October 5, and I would like to invite all of you to the international conference. Seoul is one of the world's most fascinating cities, which has been the center of politics, culture, commerce and finance in Korea. Seoul is also a historical city, the ancient capital of the Joseon Dynasty, with many tourist attractions, including old palaces and gardens. In Seoul, the past and the present meet together and coexist in harmony. You will be able to enjoy both the flavor of the traditional Korean culture and the excitement of a sprawling metropolitan city. In addition, October is the best season to visit Korea and we hope you will have a great time in Seoul. Soohun Lee President of Korean Society of Manufacturing Technology Engineers (KSMTE) 4

7 IMCC THE 17TH INTERNATIONAL MANUFACTURING CONFERENCE IN CHINA CONFERENCE COMMITTEES Conference Honorary Chairman Professor Xing Ai (Shandong University, China) Conference Chairman Professor Dongming Guo (Dalian University of Technology, China) Conference Vice Chairman Professor Professor Professor Professor Soo-Hun Lee (Ajou University, Korea) Di Zhu (Nanjing University of Aeronautics and Astronautics, China) Zhuangde Jiang (Xi'an Jiaotong University, China) Jianrong Tan (Zhejiang University, China) Professor Ming Li (National Natural Science Foundation of China, China) Consultative Committee Chairman Professor Xing Ai (Shandong University, China) Steering Committee Chairman Professor Dongming Guo (Dalian University of Technology, China) Steering Committee Vice Chairman Professor Professor Professor Professor Professor Professor Fengzhou Fang (Tianjin University, China) Andrew Nee (National University of Singapore, Singapore) Guobiao Wang (National Natural Science Foundation of China, China) Chuanzhen Huang (Shandong University, China) Jingchang Chen (The Hong Kong Polytechnic University, Hong Kong, China) Heeyoung Maeng (Seoul National University of Science & Technology, Korea) 5

8 ICMTE 2017 THE 6TH INTERNATIONAL CONFERENCE OF MANUFACTURING TECHNOLOGY ENGINEERS Academic Committee Chairman Professor Bingheng Lu (Xi'an Jiaotong University, China) Academic Committee Vice Chairman Professor Han Ding (Huazhong University of Science and Technology, China) Professor Jun Ni (The University of Michigan, USA) Professor Seog-Young Han ((Hanyang University, Korea) Professor Huayong Yang (Zhejiang University, China) Professor Shengyi Li (National University of Defense Technology, China) Professor Xipeng Xu (Huaqiao University, China) Professor Fengzhou Fang (Tianjin University, China) Publication Review Committee Chairman Professor Fengzhou Fang (Tianjin University, China) Organizing Committee Chairman Professor Yingxue Yao (Harbin Institute of Technology Shenzhen, China) Professor Zhiping Du (Beijing Dumi Culture & Arts Dvpt. Co., Ltd) Organizing Committee Vice Chairman Professor Professor Professor Professor Professor Professor Professor Professor Professor Ning He (Nanjing Univ. of Aeronautics and Astronautics) Bing Li (Harbin Institute of Technology Shenzhen, China) Yifan Dai (National University of Defense Technology, China) Yunjiang Lou (Harbin Institute of Technology Shenzhen, China) Guosheng Su (Beijing Dumi Culture & Arts Dvpt. Co., Ltd) Yinan Lai (National Natural Science Foundation of China) Xixing Wu (Chinese Production Engineering Institution) Byung Hee Kim (Kangwon National University, Korea) Sang Won Lee (Sungkyunkwan University, Korea) 6

9 IMCC THE 17TH INTERNATIONAL MANUFACTURING CONFERENCE IN CHINA PROGRAMME Thursday, November 23, :00-21:00 Registration (Guibinlou Lobby) 10:00-12:00 模具制造与成型技术专业委员会筹备会议 (Room3) 12:00-14:00 Lunch (Guibinlou) 14:00-17:00 Technical Tour 15:00-17:00 生产工程学会换届大会 (Room1) 17:30-19:00 Buffet (Guibinlou) 19:00-22:00 生产工程学会常务理事会暨专委会工作会议 (Room1) Friday, November 24, :10-10:00 Opening Ceremony, Plenary Speech 1-2 (Kylin Hall) 10:00-10:15 Coffee Break 10:15-12:15 Plenary Speech 3-5 (Kylin Hall) 12:20-13:00 Lunch (Guibinlou) 13:00-15:00 Plenary Speech 6-8 (Kylin Hall) 15:00-15:15 Coffee break Room1 Room2 Room3 Room4 Room5 Room6 Room7 15:15-18:15 FR-2 切削技术专题 IMCC Session 1 IMCC Session 2 IMCC Session 3 IMCC Session 4 IMCC Session 5 18:30-20:30 Welcome Dinner (Kylin Hall) 20:30-22:00 指导委员会会议 KSMTE MEETING 精密装配筹备会议 Saturday, November 25, 2017 Kylin Hall Room1 Room2 Room3 Room4 Room5 Room6 Room7 Room8 08:20-10:00 精密装配专题 FR-1 NSFC Session 1 NSFC Session 2 NSFC Session 3 NSFC Session 4 NSFC Session 5 6th ICMTE 10:00-10:20 Coffee break 10:20-12:00 精密装配专题 FR-1 NSFC Session 1 NSFC Session 2 NSFC Session 3 NSFC Session 4 NSFC Session 5 6th ICMTE 12:00-13:00 Lunch (Guibinlou) 13:00-15:00 精密装配专题 FR-1 测试技术专题 精密工程专题 IMCC Session6 IMCC Session7 IMCC Session8 IMCC Session9 IMCC Session 10 15:00-15:20 Coffee break 15:20-17:50 精密装配专题 FR-1 测试技术专题 精密工程专题 IMCC Session6 IMCC Session7 IMCC Session8 IMCC Session9 IMCC Session 10 18:00-20:30 Awarding Ceremony & Dinner (Kylin Hall) Sunday, November 26, :30-11:30 Memorial Tour to Statue Square of Deng Xiaoping Note: FR-1: International Additive Manufacturing High-end Forum, FR-2: Special Forum on Intelligent Manufacturing and Engineering Education 7

10 ICMTE 2017 THE 6TH INTERNATIONAL CONFERENCE OF MANUFACTURING TECHNOLOGY ENGINEERS Room 1 International Conference Hall, 国际会议厅 Room 2 Dujuan Hall, 杜鹃厅 Room 3 Mumian Hall, 木棉厅 Room 8 Wutong Pavilion, 梧桐阁 The map for the 1st floor of Guibinlou, Kylin Villa 8

11 IMCC THE 17TH INTERNATIONAL MANUFACTURING CONFERENCE IN CHINA Main Venue Kylin Hall, 麒麟厅 Room 4 Zijing Hall, 紫荆厅 Room 5 Longteng Hall, 龙腾阁 Room 6 Ziyun Pavilion, 紫云阁 Room 7 Phoenix Pavilion, 凤凰阁 The map for the 2rd floor of Guibinlou, Kylin Villa 9

12 ICMTE 2017 THE 6TH INTERNATIONAL CONFERENCE OF MANUFACTURING TECHNOLOGY ENGINEERS SCHEDULE FOR 24 NOVEMBER OPENING SESSION (08:10-08:40) Room: Kylin Hall Session Chairman: Prof. Zhuangde Jiang 08:10-08:15 OS01 Welcome speech from IMCC2017 chairman 08:15-08:20 OS02 Speech from National Natural Science Foundation of China(NSFC) 08:20-08:25 OS03 Speech from KSMTE2017 chairman 08:25-08:30 OS04 Speech from chairman of the Organizing Committee of IMCC :30-08:40 OS05 Ceremony of signing agreement between CPEI and KSMTE PLENARY SPEECHES (08:40-12:15) Room: Kylin Hall Session Chairman: Prof. Fengzhou Fang 08:40-09:20 PS01 The Challenge to Manufacturing of an Ageing World Population Prof. Joe McGeough 09:20-10:00 PS02 Material Surface Functionalization by Laser Micro/Nano Structuring Prof. Lin Li 10:00-10:15 Tea Break Session Chairman: Prof. Chuanzhen Huang 10:15-10:55 PS03 New Paradigm of Manufacturing for Electronics Technology of Printed Electronics Prof. Sung Lim Ko 10:55-11:35 PS04 Additive Manufacturing of Metallic Components:the Final Competition between Powders and Wires under Different Energy Field Prof. Xiaoyan ZENG 11:35-12:15 PS05 Augmented Reality Assisted Maintenance and Disassembly Prof. Andrew Y C Nee 12:20-13:00 Lunch PLENARY SPEECHES (13:00-15:00) Room: Kylin Hall Session Chairman: Prof. Ning He 13:00-13:40 PS06 Design of Holonic Manufacturing Systems Prof. Hendrik Van Brussel 13:40-14:20 PS07 Research and Development towards Next-generation Metal Cutting Technology Prof. Eiji Shamoto 14:20-15:00 PS08 Design and Control of 6-legged Parallel-Parallel Robots for Moving and Manufacturing Integration Prof. Feng Gao 15:00-15:20 Tea Break 10

13 IMCC THE 17TH INTERNATIONAL MANUFACTURING CONFERENCE IN CHINA FR-2: Special Forum on Intelligent Manufacturing and Engineering Education Room: Meeting Room 1 Session Chairman: Prof. Chaoying Zhou 15:20-15:50 FR201 The Added Value of Manufacturing in the Context of Industry 4.0 Prof. Dominiek Reynaerts 15:50-16:20 FR202 Globalization with Digitalisation Transformation Strategy of a Chinese Machine Tool Manufacturer Prof. Ö mer Sahin Ganiyusufoglu 16:20-16:50 FR203 Opportunities and Applications of 3D Additive Manufacturing Prof. Jun Wei 16:50-17:20 FR204 Industry 4.0 and Circular Economy Prof. Seeram Ramakrishna 17:20-17:50 FR205 Recent Advancement in Engineering Accreditation and the NTUME Implementation Prof. Jia-Yush Yen IMCC Session 1: Digital Manufacturing and Intelligent Manufacturing - I (15:20-18:05) Room: Meeting Room 3 Session Chairman: Prof. Fenghua Su, Prof. Hang Gao 15:20-15:35 NO.5 Model based Assembly Process Planning and Simulation for General Aircraft Products Ruonan Zhang, Yixiang Fang, Jiangyan Jin, Pengxiang Zhang 15:35-15:50 NO.39 Non-circular Gear Continuous Generating Machining Electronic Gearbox Design and Experimental Research Lulu Wu, Jiang Han, Yonggang Zhu, Xiaoqing Tian and Lian Xia 15:50-16:05 NO.80 Tool Orientation Planning for Minimizing Cutting Force Induced Elastic Deflection Error in Five-axis Machining of Copper Alloy Xianyin Duan, Fangyu Peng and Guozhang Jiang 16:05-16:20 NO.15 Research on Mechanical Characteristics of Piezoelectric Actuators for Variable Bearings Preload of Spindle Songhua Li,Chuang Zuo and Qiuhong Qu 16:20-16:35 NO.35 The Design and Simulation of Two Joint Full Drive Adjustable Fruit and Vegetable Picking End-effectors Fan Xia, Jinghu Shen and Min Zhang 16:35-16:50 NO.57 Experimental Investigation on Dry Milling of Ti-6Al-4V in Additive/Subtractive Hybrid Manufacturing Shuai Li, Dongming Guo, Qian Bai and Bi Zhang 16:50-17:05 NO.61 Research on Multisensor Fusion Monitoring Systems and Information Processing Methods Zishun Gan, Wenxiang Zhao, Li Jiao and Xibin Wang 17:05-17:20 NO.66 Robot Joint Zero Offset Calibration and Accuracy Assessment Lei Ma, Shanshan He, Changya Yan and Chen-Han Lee 17:20-17:35 NO.85 Key Technologies of Aircraft Digital Assembly Coordination Design and Simulation Dongping Zhao, Wen Guo, Gangfeng Wang and Yupeng Xin 11

14 ICMTE 2017 THE 6TH INTERNATIONAL CONFERENCE OF MANUFACTURING TECHNOLOGY ENGINEERS 17:35-17:50 NO.10 The Multi-axis NC Adjustment Method of the Aero-engine Attitude in Installation Process Hang Gao, Qiang Song, Guo Liu, Xianjun Sheng and Zhe Zhao 17:50-18:05 NO.115 On-line Monitoring and Diagnosis of Out-of-control Signals in Gear Manufacturing Processes based on a Hybrid Ensemble Learning Model Wen-An Yang and Chao Huang IMCC Session 2: Digital Manufacturing and Intelligent Manufacturing - II (15:20-18:05) Room: Meeting Room 4 Session Chairman: Prof. Jiang Han, Prof. Chen Zhang 15:20-15:35 NO.25 Effect of Dynamic Characteristic for Test-piece and Its Fixture on Measurement of Milling Force Can Liu, Jingquan Wu, Qidong Liu, Huanlao Liu, Guanghui Li and Guangyu Tan 15:35-15:50 NO.37 Adaptive Slicing with Multi-objective Optimization for Rapid Prototyping and Manufacturing Bingbing Hu, Guoqing Jin and Zhan Yang 15:50-16:05 NO.112 Research on Delay Mechanism and Compensation of Electronic Gearbox in Networked Control System Jiang Han, Yonggang Zhu, Lian Xia and Lulu Wu 16:05-16:20 NO.118 Sensorless Force-free Control for Direct Teaching in Velocity Mode Yunjiang Lou and Shujie Ma 16:20-16:35 NO.67 Micro Electrochemical Machining Method based on Electrostatic Actuation Xiaokun Zhu, Ruining Huang, Chenglu Zhao 16:35-16:50 NO.47 Simulation of Drag Reduction Performance for Micro-texture on Aero Engine Blade Chen Zhang and Koirala Saurav Bijay 16:50-17:05 NO.108 Research of an Automatic Screw Assembly Process based on an Industrial Robot Arm Zhuo Duan,Zhibing Lu,Chengzhen Cao and Jia Na 17:05-17:20 NO.62 A Bipolar Universal Pulse Power Generator with Flexible Energy Control Strategy Jiao Yang, Fei Yang, Han Hua and Bin Fang 17:20-17:35 NO.13 The Extraction Method of Image Parameters for Meshing Marks of Heavy Truck's Hypoid Gear Feng Xie, Haining Wang, Lin Geng and Dong Yang 17:35-17:50 NO.Z14 Geometric Accuracy Modeling of Precision Machine Tools based on Key Characteristics Yiying Liu, Junkang Guo, Jun Hong, and Zhigang Liu 17:50-18:05 NO.N2 Tool Path Generation based on Multi-axis Machining System Wei Yuan, Chang Yuen Chan, Lihua Li, Wing Bun Lee, and Xingzheng Wang IMCC Session 3: EDM/ECM/Energy Beam Machining (15:20-18:05) Room: Meeting Room 5 Session Chairman: Prof. Qinhe Zhang, Zenwei Zhu 12

15 IMCC THE 17TH INTERNATIONAL MANUFACTURING CONFERENCE IN CHINA 15:20-15:35 NO.7 Technics Study on Electrical Discharge Grinding Polycrystalline Cubic Boron Nitride Cutting Tool based on the Orthogonal Experiment Yunhai Jia, Yan Guo and Jiangang Li 15:35-15:50 NO.69 Research on the Quasi Maintaining-voltage Phenomenon of RC-type Generator in Micro-EDM Han Hua,Fei Yang,Jiao Yang, Kun ShI and Fuming Peng 15:50-16:05 NO.86 Thermal Field of Low Frequency Vibration Assisted EDM Process Yuhua Huang, Qinhe Zhang and Dezheng Kong 16:05-16:20 NO.93 Micro Patterns Fabrication by Electrochemical Machining with Laser Masking Xiaohai Li, Shuming Wang and Dong Wang 16:20-16:35 NO.41 Research of Micro Electro-discharge Machining base on Liquid Metal Microelectrodes Ruining Huang, Xiaofei Liu and Shaofeng Han 16:35-16:50 NO.44 Modeling and Simulation of Liquid Metal Electrode Discharge Channel Base on Particle-in-cell and Monte Carlo collision Dandan Lu, Ruining Huang and Xiaofei Liu 16:50-17:05 NO.110 Electrochemical Machining of Casting Allowance on Revolving Part by using Different Cathode Feed Strategies Yongcheng Ge, Zengwei Zhu, Zhou Ma and Dengyong Wang 17:05-17:20 NO.78 Exploratory Study on Electrochemical Corrosion Behavior of Sintered Nd-Fe-B Magnets Processed by Massive Laser Shock Peening Yihui Huang, Chengyi Ning, Hao Wang, Chunhai Guo and Wenwu Zhang 17:20-17:35 NO.83 The Effect of Fibre Configuration and Parameters on Surface Integrity When Cutting CFRP using Continuous Wave Laser Maojun Li, Shuo Li, Xujing Yang, Yi Zhang and Zhichao Liang 17:35-17:50 NO.92 Fabrication of Porous Structures on the Microchannel Surfaces for Enhanced Microchannel Heat Sinks Xiaolong Chen, Yanlin Xie and Qingsong Huang 17:50-18:05 NO.84 The Influence of Laser-sintered Parameters on Microstructure of Al2O3/ZrO2/SiO2 and its Thermal Property Wei Wang, Sihang Wang, Qinglong Zhao and Jerry FUH IMCC Session 4: Ultra-precision Machining (15:20-18:05) Room: Meeting Room 6 Session Chairman: Prof. Zhili Long, Prof. Conghai Xu 15:20-15:35 NO.8 Output Energy Prediction for Rotating Ultrasonic Machining based on Elman Neural Network Wendong Sun, Zhili Long, Jianguo Zhang and Jianjun Zou 15:35-15:50 NO.58 Research on Ultrasonic Cutting of Nomex Honeycomb Composites Material by the Pointed Cutter Daohui Xiang, Bangfu Wu and Zhikun Zhou 15:50-16:05 NO.64 Study on Preparation and Properties of Micro-texture CVD Diamond Coated Tools Daohui Xiang,Haoren Feng and Lei Zhang 13

16 ICMTE 2017 THE 6TH INTERNATIONAL CONFERENCE OF MANUFACTURING TECHNOLOGY ENGINEERS 16:05-16:20 NO.90 Optimization Experiments of Force-induced Rheological Polishing of Quartz Substrate Shihao Chen, Binghai Lv, Qi Shao and Qiankun He 16:20-16:35 NO.98 Finite Element Simulation in Micromachining Nanosized Silicon Carbide Particles Reinforced Composite Materials based on Cohesive Zone Model Hongmin Pen, Lei Wang, Na Ni, Yufeng Wang and Jingting Wu 16:35-16:50 NO.105 Design and Performance Analysis with Four Degrees of Freedom Flexible Hinge Jialu Xu, Feng Jiang and Lan Yan 16:50-17:05 NO.106 A Study of Self-Optimization of Surface Generation for Ultra-precision Polishing of Freeform Surfaces Zhongchen Cao, Jiangbo Chen, Mingyu Liu and Benny Cheung 17:05-17:20 NO.18 A Displacement Measurement Method for Micro Vision System based on Fast Block Matching with Particle Swarm Optimization Algorithm Yongbo Zhu, Guoliang Lu and Peng Yan 17:20-17:35 NO.52 Research on the Performance of PCD Radius End Mill in Ductile Milling of Engineering Ceramics with Large Cutting Parameters Rong Bian, Yinfei Yang, Wenzheng Ding, Juan Mu and Junming Hou 17:35-17:50 NO.103 Beam-coupling Assembly for Ring Laser Gyroscopes Zhijie Zhao, Li Ma and Weibin Rong 17:50-18:05 NO.114 The Influence of Graphene Orientation on the Friction and Wear Properties of Si3N4/TiC based Composite Ceramic Tool Materials Yubing Zhang, Chonghai Xu, Guangchun Xiao and Mingdong Yi IMCC Session 5: Modern Design Theory and Methodology (15:20-18:05) Room: Meeting Room 7 Session Chairman: Prof. Teng Long, Prof. Jiangang Li 15:20-15:35 NO.16 Adaptive Metamodel based Analytical Target Cascading for Multidisciplinary Design Optimization Jun Zheng, Chao Lu, Zhuowei Li and quan Zhao 15:35-15:50 NO.19 Applying MBDO Techniques for Spacecraft Multidisciplinary Design Optimization Renhe Shi, Li Liu, Teng Long, Bin Yuan and Xin Li 15:50-16:05 NO.26 The Improve Design of Frame for Mountain Bike based on TRIZ Theory Fuying Zhang, Xinran Zhu and Nana Song 16:05-16:20 NO.76 Numerical Optimization of the Shaped Film Cooling Hole Chunhai Guo,Wenwu Zhang and Yihui Huang 16:20-16:35 NO.33 Structural Design and Performance Evaluation of Uniformly Distributed Ring Type Sealing Valve Ning Chen, GongXue Zhang, YanHui Meng and Lieqin Li 16:35-16:50 NO.48 Design and Error Analysis of a Non-contact Thickness Measuring Tool of Weak Rigidity Rotating Parts Qing Zhou, Min Xu and Lingbao Kong 16:50-17:05 NO.82 A Scheme of Material Management for Small and Micro Manufacturing Enterprises based on Collaboration Zhenyu Liu, Yixiang Fang, Qiaochu Liu and Lele Qin 14

17 IMCC THE 17TH INTERNATIONAL MANUFACTURING CONFERENCE IN CHINA 17:05-17:20 NO.23 Research on Damage Evolution of Skin Layer during Trimming of CFRP Jingwen Zhou, Bin Yang, Ye Yang, Huadong Pan and Yan Chen 17:20-17:35 NO.59 Fitting of Continuous Line Segments with Arc Paths Jiangang Li, Xiqing Sun and Ye Liu 17:35-17:50 NO.111 Closed-loop Control of MEMS Mirrors by using Adaptive Sliding Mode Control and Observer Xiaogang Xiong, Wenqin Chen and Shanhai Jin 17:50-18:05 NO.40 A General Method for Calculating the Elastic Contact Angle of Ball Screw Accounting for Raceway Profile Error Hongkui Jiang, xianchun Song,Yanfeng Li, Xiangrong Xu and Leyuan Wang Special Symposium for the Committee of Metal Cutting Technology (Speak in Chinese) 金属切削技术专题 (15:15-18:15) Room: Meeting Room 2 15:15-15:45 SC101 高效切削刀具设计制备与应用陈明上海交通大学 15:45-16:15 SC102 航空结构件加工不确定性与可测加工何宁南京航空航天大学 16:15-16:45 SC103 氮化物薄膜结构形态与其性能关联性研究赵海波四川大学 16:45-17:15 SC104 汽轮机叶片铣削加工用硬质合金刀片的研究张平成都工具研究所 17:15-17:45 SC105 刀具数据驱动技术及进展吴江伊斯卡刀具国际贸易 ( 上海 ) 有限公司 17:45-18:15 SC106 发动机连杆机体专用刀具应用张学智四川普什宁江机床有限公司研发院 15

18 ICMTE 2017 THE 6TH INTERNATIONAL CONFERENCE OF MANUFACTURING TECHNOLOGY ENGINEERS SCHEDULE FOR 25 NOVEMBER FR-1: International Additive Manufacturing High-end Symposium (08:20-12:00) Room: Meeting Room 1 Session Chairman: Prof. Xiaoyan Zeng 08:20-08:30 FR101 Welcome Speech Prof. Dongming Guo,Dalian University of Technology 08:30-09:00 FR102 Invited Speech Bingheng Lu,Xi an Jiaotong University 09:00-09:30 FR103 Additive Manufacturing a New Technology Moving from Academia to Industry Prof. Rafi Wertheim 09:30-10:00 FR104 Added Manufacturing Technologies for High Performance Large Metal Structural Parts on Major Equipments: Challenges, Progress, and Influences Huaming Wang,Beihang University 10:00-10:20 Tea Break Session Chairman: Prof. Bi Zhang 10:20-10:50 FR105 Enriching Additive Manufacturing Metrology Prof. Richard Leach 10:50-11:20 FR106 Additive Manufacturing Surpass the Traditional Manufacturing Technology Shape & Property Control Dichen Li,Xi an Jiaotong University 11:20-11:50 FR107 Additive Manufacturing and Three-Dimensional Bioprinting: Frontier and Scientific Challenges Yong Huang,University of Florida 12:00-13:00 Lunch NSFC Reports (NSFC: National Natural Science Foundation of China) (Speak in Chinese) FP-1: NSFC Session 1 (08:20-12:00) Room: Meeting Room 2 Session Chairman: 上官文斌, 陈天宁 08:20-08:40 面上项目航天可展收机构结构的一体化设计理论与方法研究丁希仑北京航空航天大学 08:40-09:00 面上项目可重构机器人中折展结构基础设计理论研究陈焱天津大学 09:00-09:20 面上项目复杂多环耦合机构的数字化综合理论及基于此的大型复杂重载机械装备的概念创新设计理论丁华锋燕山大学 09:20-09:40 青年基金可实现 SCARA 运动的新型并联机器人机构及其动态特性研究谢福贵清华大学 09:40-10:00 面上项目人工髋关节仿生试验装备动态特性及系统稳定性研究程刚中国矿业大学 10:00-10:20 茶歇 Session Chairman: 季凌飞, 李建秋 16

19 IMCC THE 17TH INTERNATIONAL MANUFACTURING CONFERENCE IN CHINA 10:20-10:40 青年基金光学脆性材料冷等离子体射流辅助切削的机理与方法刘新大连理工大学 10:40-11:00 青年基金基于电子激发 / 电离调控的飞秒脉冲序列宽禁带材料微孔加工李晓炜北京理工大学 11:00-11:20 面上项目 KDP 功能晶体表面微缺陷的修复机制及其对抗强激光损伤能力的影响研究陈明君哈尔滨工业大学 11:20-11:40 面上项目飞秒激光高效高分辨多尺度全息动态加工方法研究李家文中国科学技术大学 FP-2: NSFC Session 2 (08:20-12:00) Room: Meeting Room 3 Session Chairman: 汤勇, 李兵 08:20-08:40 面上项目大型飞机飞行过程中机翼的三维动态变形检测方法研究梁晋西安交通大学 08:40-09:00 青年基金复杂激励下变姿态超长柔性机械臂振动机理辨识及主动控制研究黄毅湖南大学 09:00-09:20 青年基金基于奇异值分解理论拓展的转子滚动轴承系统故障特征提取技术研究从飞云浙江大学 09:20-09:40 面上项目高速地面车辆主动危险规避最优运动规划与控制的动力学模型分析龚建伟北京理工大学 09:40-10:00 面上项目汽车失稳临界区域非线性瞬态动力学定量描述理论和模型预测控制方法研究李亮清华大学 10:00-10:20 茶歇 Session Chairman: 丁华峰, 邵金友 10:20-10:40 面上项目接近服役条件下材料微观力学性能原位测试新技术的研究赵宏伟吉林大学 10:40-11:00 面上项目服役状态 CFRP/ 钛合金复合构件干涉连接界面微动行为及损伤机理张开富西北工业大学 11:00-11:20 面上项目水溶性铜基纳米微粒的制备及其作为切削液添加剂的摩擦学性能研究张平余河南大学 11:20-11:40 面上项目微米间隙密封气膜冷凝析水润滑机理与表面织构润湿控制白少先浙江工业大学 11:40-12:00 青年基金采用空气箔片轴承支承的无油涡轮增压器转子系统设计理论研究及实验验证冯凯湖南大学 FP-3: NSFC Session 3 (08:20-12:00) Room: Meeting Room 4 Session Chairman: 刘燕, 王成勇 08:20-08:40 面上项目薄壁曲面类开孔结构的形状优化设计理论与方法研究张卫红西北工业大学 08:40-09:00 面上项目复杂模块化产品主从关联设计理论 方法和应用纪杨建浙江大学 17

20 ICMTE 2017 THE 6TH INTERNATIONAL CONFERENCE OF MANUFACTURING TECHNOLOGY ENGINEERS 09:00-09:20 青年基金带参广义 Bézier 曲线曲面的关键技术及应用研究胡钢西安理工大学 09:20-09:40 青年基金数控机床用新型磁悬浮直驱主轴及其协调容错控制孙晓东江苏大学 09:40-10:00 面上项目多茸金属纤维多孔载体的可控精细特征建模与形貌协同设计王清辉华南理工大学 10:00-10:20 茶歇 Session Chairman: 丁希仑, 李恒 10:20-10:40 面上项目变传动比面齿轮啮合传动设计理论与制造技术研究林超重庆大学 10:40-11:00 青年基金无侧隙平面包络端面啮合蜗杆传动的研究邓星桥西华大学 11:00-11:20 青年基金基于性能损失的电液伺服系统解析冗余在线故障检测与主动容错控制关键技术研究姚建勇南京理工大学 11:20-11:40 面上项目月球探测重载六足移动机器人基础理论及关键技术研究高海波哈尔滨工业大学 FP-4: NSFC Session 4 (08:20-12:00) Room: Meeting Room 5 Session Chairman: 刘永红, 杜雪 08:20-08:40 面上项目压铸镁合金压室预结晶组织实验研究 超声处理及模拟仿真熊守美清华大学 08:40-09:00 面上项目脉冲电流制备镁合金半固态浆料及流变成形基础研究吴国华上海交通大学 09:00-09:20 面上项目钛铝合金氢致轧制改性及成形性能研究宗影影哈尔滨工业大学 09:20-09:40 面上项目薄壁钛管加热绕弯不均匀变形机理及成形性能李恒西北工业大学 09:40-10:00 面上项目基于不均匀变形协调的钛合金等温局部加载组织调控孙志超西北工业大学 10:00-10:20 茶歇 Session Chairman: 张卫红, 段发阶 10:20-10:40 面上项目表面原位生长晶须对陶瓷的润湿性及其与金属钎焊的影响机理研究曹健哈尔滨工业大学 10:40-11:00 面上项目块体金属玻璃与晶态合金材料的纳米结构多层膜自蔓延反应连接机理及动力学研究何鹏哈尔滨工业大学 11:00-11:20 面上项目面向免组装机构的数字化设计与激光快速制造基础研究杨永强华南理工大学 11:20-11:40 青年基金主动式分子级靶标捕获的 " 纳米感知触角 " 定向 / 定域制造及位姿操控蒋维涛西安交通大学 18

21 IMCC THE 17TH INTERNATIONAL MANUFACTURING CONFERENCE IN CHINA FP-5: NSFC Session 5 (08:20-12:00) Room: Meeting Room 6 Session Chairman: 李伟, 董小闵 08:20-08:40 青年基金基于异构网络的大尺度空间测量方法及性能研究林嘉睿天津大学 08:40-09:00 面上项目椭球反射大孔径双通照明高分辨率共焦扫描测量方法与理论刘俭哈尔滨工业大学 09:00-09:20 面上项目高速漏磁检测的磁后效及其作用机理研究康宜华华中科技大学 09:20-09:40 面上项目基于一维纳米间隙电极约束组装的气敏传感器纳米线原位成形技术研究邵金友西安交通大学 09:40-10:00 青年基金一种基于视觉传感的新型细胞生物力学测量系统研究王玉亮北京航空航天大学 10:00-10:20 茶歇 Session Chairman: 楼云江, 陈焱 10:20-10:40 面上项目非连续约束下能量优化的机器人运动机构的仿生机理研究何斌同济大学 10:40-11:00 面上项目鸵鸟二趾足重载高速自适应越沙机制及越沙步行轮仿生研究张锐吉林大学 11:00-11:20 面上项目基于微生物模板的生物变形加工基础研究蔡军北京航空航天大学 11:20-11:40 面上项目开关磁阻平面直驱系统的微纳精度生成机理与控制研究曹广忠深圳大学 11:40-12:00 面上项目不确定条件下混装生产精准作业的平滑自适应调度研究唐秋华武汉科技大学 Special Symposium for the Committee of Precise Assembly Technology (Speak in Chinese) 精密装配技术专题 (08:20-12:00) Room: Kylin Hall Session Chairman: 刘检华 08:20-08:25 SC201 致欢迎辞 08:25-08:30 SC202 中国生产工程分会秘书长吴锡兴宣布批复文件 08:30-08:35 SC203 中国生产工程分会理事长郭东明院士致辞 08:35-08:40 SC204 特邀代表讲话 08:40-08:45 SC205 精密装配技术专业委员会主任委员张之敬教授讲话 08:45-09:15 SC206 合影 Session Chairman: 洪军 09:15-09:35 SC207 航天惯性仪表精密装配技术 姚竹贤 航天九院 13 所 09:35-09:55 SC208 智能装配系统若干关键技术 张之敬 北京理工大学 09:55-10:15 茶歇 Session Chairman: 姚竹贤 10:15-10:35 SC209 复杂机械系统精准数字化装配理论与方法 洪军 西安交通大学 19

22 ICMTE 2017 THE 6TH INTERNATIONAL CONFERENCE OF MANUFACTURING TECHNOLOGY ENGINEERS 10:35-10:55 SC210 飞机先进装配技术发展与现状孙年俊中国航空制造技术研究所 10:55-11:15 SC211 微纳米操作机器人及在精密装配中的应用研究孙立宁苏州大学 Session Chairman: 张之敬 11:15-11:35 SC212 高精度数控机床的低应力装配制造技术贺大兴北京工研精机股份有限公司 11:35-11:55 SC213 航空发动机转子数字化装配技术基础孙伟大连理工大学 FR-1: International Additive Manufacturing High-end Symposium (13:30-17:10) Room: Meeting Room 1 Session Chairman: Prof. Dongjiang Wu 13:30-14:00 FR108 When Additive Manufacturing Meets Topology Optimization- Opportunities, Challenging Issues and Perspectives Xu Guo, Dalian University of Technology 14:00-14:30 FR109 Aircraft Structure Technology Based on Additive Manufacturing Xiangming Wang, AVIC Shenyang Aircraft Design and Research Institute 14:30-15:00 FR110 Review on Current Situation and Development Trend of Additive Manufacturing in the Aerospace Science & Technology Industry in China Lijie Guo,Shanghai Aerospace Manufacture(Group)Co., Ltd 15:00-15:20 Tea Break Session Chairman: Prof. Huaming Wang 15:20-16:50 FR111 The Future of Additive Manufacturing 16:50-17:10 FR112 Call for Papers: Engineering, Frontiers of Mechanical Engineering IMCC Session 6: Advanced Manufacturing Technology and Equipment - I (13:00-17:20) Room: Meeting Room 4 Session Chairman: Prof. Yi Luo, Prof. Peng Jin 13:00-13:30 Invited Speech Development of Hybrid Micromachining Processes and Machining Tool for Next Generation of Micro-products (Invited) Prof. Xichun Luo 13:30-13:45 NO.14 Geometric Error Identification and Characterisation of a Five-axis Machine Tool Xiaogeng Jiang, Chang Liu and Xiangfeng Gou 13:45-14:00 NO.17 Experimental Research on Synchronous Manufacturing Technology for Blisk using Different Polishing Method Guijian Xiao, Yun Huang, Lai Zou and Ying Liu 14:00-14:15 NO.22 Stability Prediction of Peripheral Milling of Flexible Workpieces Considering Material Removal Effect Yun Yang, Weihong Zhang, Yingchao Ma and Min Wan 14:15-14:30 NO.24 Analysis of Cutting Forces in High Speed Ball Milling of Natural Marble Liang Cao, Fuzeng Wang, Tongkai Liao and Feng Jiang 20

23 IMCC THE 17TH INTERNATIONAL MANUFACTURING CONFERENCE IN CHINA 14:30-14:45 NO.28 Longitudinal-torsional Coupled Rotary Ultrasonic Machining of Ceramic Matrix Composites: Evaluation of Cutting Force Jianjian Wang, Pingfa Feng and Jianfu Zhang 14:45-15:00 NO.32 Comparative Study on Cutting Loads for Rigid and Fixed Tapping Processes Yingchao Ma, Min Wan and Weihong Zhang 15:00-15:20 Tea Break 15:20-15:35 NO.49 High-precision Pendulum Single Grit Scratch Test Equipment Libin Zhang, Yan Shi, Feng Jiang and Lan Yan 15:35-15:50 NO.51 Experimental Investigation of Grindability of Equiaxed Nickel-based Superalloy K4125 Wenfeng Ding and Ning Qian 15:50-16:05 NO.K14 FE Analysis of the Torsional Rigidity of a Cycloid Drive Considering Multi-contacts Hyeong-Joon Ahn, Byeong Min Choi and Young Hwan Lee 16:05-16:20 NO.53 Effect of Cutting Edge Numbers on Cutting Performance and Surface Morphology in Face Milling of Nodular Cast Iron Peng Wang, Xibin Wang, Pei Yan, Zeyu Peng, Junyi Zhu and Li Jiao 16:20-16:35 NO.63 Research on the Single Grit Scratching Process of Ti6Al4V Tao Zhang, Feng Jiang and Libin Zhang 16:35-16:50 NO.68 Theoretical and Experimental Research on Elastic Yield and Dynamic Stiffness of Camshaft Grinder Shuailong She,Zhaohui Deng, Qi Huang and Shouzhi Yang 16:50-17:05 NO.72 Experimental Investigation into Optimal Processing Conditions for Abrasive Slurry Jet Polishing of Mold Steel Rongjuan Wang and Chengyong Wang 17:05-17:20 NO.75 Analysis of Drilling CFRP Technology in Aircraft Manufacturing Industry Ende Ge, Lei Chen, Ruiheng Xiao and Rupeng Li 17:20-17:35 NO.79 Inclination Angle Effects in Machining Process and Surface Quality for Rotary Ultrasonic Multi-axis Ball End Milling of Quartz Glass with Diamond Tool Xiaoxiao Chen and Wenwu Zhang IMCC Session 7: Advanced Manufacturing Technology and Equipment - II (13:00-17:35) Room: Meeting Room 5 Session Chairman: Prof. Qinghua Song, Prof. Mingxing Lin 13:00-13:30 Invited Experimental and Analytical Force Analysis in Micromilling (Invited) Speech Prof. Aldo Attanasio 13:30-13:45 NO.95 Research on the Effects of Flow Distribution Boundary Conditions on the Output Flow Pulsation of Axial Piston Pump Xuecheng Chen, Ruichuan Li, YurongChi, Jikang Xu and Junru Yang 13:45-14:00 NO.96 Experimental Investigation on Ultrasonic Vibration Assistant Helical Milling for Hole-making of Ti-6Al-4V Alloy Guang Chen, Yunhe Zou, Lianpeng Lu, Xuda Qin and Chengzu Ren 14:00-14:15 NO.97 An Efficient Approach to the Five-axis Flank Milling of Spiral Bevel or Hypoid Gears with a Filleted End Mill Cutter Yuansheng Zhou, Zhuxi Yang, Han Ding and Jinyuan Tang 21

24 ICMTE 2017 THE 6TH INTERNATIONAL CONFERENCE OF MANUFACTURING TECHNOLOGY ENGINEERS 14:15-14:30 NO.100 Chatter Detection and Stability Regions Identification in Thin-walled Workpiece Milling based on CWT Jian Gao, Qinghua Song, Zhanqiang Liu and Xing Ai 14:30-14:45 NO.54 Experimental Study in Ultrasonic Vibration Assisted Drilling of 1J22 Soft Magnetic Alloy Zhigang Dong, Yiming Zhang, Yuan Zhang, Renke Kang, Yu Chen and Yidan Wang 14:45-15:00 NO.55 Deformation Simulation and Experimental Study of Micro Milling Micro Thin Wall of Ti-6Al-4V Titanium Alloy at Mesoscale Jie Yi, Xibin Wang, Li Jiao and Mingxin Li 15:00-15:20 Tea Break 15:20-15:35 NO.119 Development of Injection Mold with 3D Printing Technology for Quality Improvement and Reduction of Cycle Time Xuan-Phuong Dang and Hong-Seok Park 15:35-15:50 NO.K17 Undulatory Swimming Motion of Underwater Robot using Multi-Smart Soft Actuator Won-Shik Chu, Hyung-Soo Kim, Dong-Ryul Kim, Jae-Kyung Heo, Sung-Hoon Ahn 15:50-16:05 NO.12 Design and Application of Hydrostatic Bearings using Annular Gap Restrictor for Precision Machine Tools Yaolong Chen, Penghai Zhang, Chengyong Zhang and Xiaoting Liu 16:05-16:20 NO.46 A Prediction Model and Experimental Study of Internal Gear Power Honing Force based on Improved Wolf Colony Algorithm Xia Lian, Han Jiang and Yuan Bin 16:20-16:35 NO.91 An Experimental Investigation of Wear Characteristics of Pre-coated Diamond Abrasive in Grinding of Ceramics Sixing Liu and Bing Xiao 16:35-16:50 NO.87 The Development and Experimental Research on Giant Magnetostrictive Ultrasonic Strengthening System Shanxiang Fang, Qinjian Zhang, Huiling Zhao, Jingzhou Yu and Yongchen Chu 16:50-17:05 NO.42 Modeling and Simulation Analysis for the Self-sensing Ballscrew Preload System based on Giant Magnetostrictive Actuator Xiaojun Ju, Mingxing Lin and Zhen Wang 17:05-17:20 NO.N1 Process Technology of the Aircraft Skin HE Fang Zhou, HUANG Zhi Bin, ZHANG Hong Zhou and SUN Zhong Gang 17:20-17:35 NO.60 Surface Quality Evaluation in Orthogonal Turn-milling based on Box-counting Method for Image Fractal Dimension Estimation Zhongke Niu, Li Jiao and Xibin Wang IMCC Session 8: Green Manufacturing and Energy-saving Manufacturing Process/Material Forming Science and Technology (13:00-17:35) Room: Meeting Room 6 Session Chairman: Prof. Songmei Yuan, Prof. Yongliang Chen 22

25 IMCC THE 17TH INTERNATIONAL MANUFACTURING CONFERENCE IN CHINA 13:00-13:30 Invited Speech Abrasive-free Planarization of Functional Materials by Catalyst Referred Etching (Invited) Prof. Kazuto Yamauchi 13:30-13:45 NO.43 A Simulation-based Framework for Energy Consumption Analysis and Evaluation within Forming Production System Wei Xiong, Haihong Huang, Libin Zhu and Zhifeng Liu 13:45-14:00 NO.31 Online Detection and Study of Cracks in Grinding Hardening Liang Ping, Cheng Wei and Kewei Meng 14:00-14:15 NO.101 Effect of Shear Clearance on Shear Section Quality and Microscopic State of Deformation Zone of Non-oriented Electrical Steel Sheet Yiwei Zhu, Qiusheng Yan, Jiabin Lu and Bing Ouyang 14:15-14:30 NO.30 Fatigue Fracture Properties of Mono- and Multilayer PVD Coatings for Cutting Tools in the Impact Testings Xuming Zha, Feng Jiang and Xipeng Xu 14:30-14:45 NO.116 Experimental Study on the Optimization of Cooling/Lubrication Methods in Titanium Alloy Milling Bochuan Chen, Songmei Yuan and Guangyuan Zhu 14:45-15:00 NO.Z15 Method and System of Coaxiality Measurement for Turbojet Engine Assembly Huan Guo, Ke Shang, Xin Jin, and Zhijing Zhang 15:00-15:20 Tea Break 15:20-15:35 NO.36 Effect of Electric Pulses on the Deformation Behavior of Pre-strain Ti6Al4V Sheets Junhao Ding, Heng Li and Tianjun Bian 15:35-15:50 NO.73 Microstructure Evolution of Cold-rolled Pure Iron under Different Heat Treatments Chao Guo, Hanyu Tang, Lihang Wang and Qian Bai 15:50-16:05 NO.K20 A Study on Process Monitoring and Fault Diagnosis System for FDM Process based on Machine Learning Algorithms Jiwoong Lee, Jung Sub Kim, Jin Woo Kim, Sang Won Lee 16:05-16:20 NO.99 Optimization Design of Injection Mold for Washing Machine of External Barrel Machine based on Moldflow Quan Wang and Min Zhang 16:20-16:35 NO.45 Test Method of High Temperature Hardness of Cemented Carbide Bicheng Guo, Tao Zhang, Feng Jiang and Lan Yan 16:35-16:50 NO.65 A Study of Residual Stress in Rolled Copper before and after Heat Treatment Heng Feng, Qian Bai and Xinghan Dong 16:50-17:05 NO.Z6 The Research of Process Optimization and Analysis on the Retaining Ring Shedding Problem of the J30JHT Connector of a Satellite Constellation Yugang Liu, Botao Xu, Zhikai Fang, Wei Zhang, Bile Wan 17:05-17:20 NO.Z13 Research on Optimal Design of Hydro-telescoping Mechanical Connectors for In Situ Assembly Yongliang Chen,Tao Peng,Hengli Lin,Dongpo Wang 17:20-17:35 NO.122 Modeling and Sensitivity Analyzing of Energy Consumption in CNC Face Millin g using Optimized SVM Approach Jiayang Wu, Liang Gao, Bowen Lin and Jin Yi 23

26 ICMTE 2017 THE 6TH INTERNATIONAL CONFERENCE OF MANUFACTURING TECHNOLOGY ENGINEERS IMCC Session 9: Other Areas Related to Manufacturing - I (13:00-17:35) Room: Meeting Room 7 Session Chairman: Prof. Song Zhang, Prof. Fang Xie 13:00-13:30 Invited Speech Advances in X-ray Computed Tomography for Dimensional Metrology (Invited) Prof. Enrico Savio 13:30-13:45 NO.6 The Influence of Ni Addition on the Mechanical Properties and Microstructures of Al2O3-TiN-TiC Ceramic Tool Materials Yuhuan Fei, Chuanzhen Huang, Hanlian Liu, Bin Zou and Yongde Li 13:45-14:00 NO.9 Design of a New Quasi Zero Stiffness Vibration Isolation System Wenpeng Xin, Shuai Wang, Xiaojun Yang and Bing Li 14:00-14:15 NO.11 Cryogenic and High Speed Grinding of Viscoelastic Polymers Ying Yan, Shangxiong Zhang, Ping Zhou, Xiaoguang Guo, Huiping Wang and Shuhua Shan 14:15-14:30 NO.27 A Simplified Method for Local Tool Interference Detection and Tool Position Modification during Five-axis Ball-end Milling Process Dongdong Jiang, Song Zhang and Binxun Li 14:30-14:45 NO.29 Dispensing Planning Model and Algorithm for a Dispensing robot Jianghua Chen, Bing Li and Haiyang Jin 14:45-15:00 NO.70 Design of the Feed Liquid System for an Internal Cooling End-milling Ningxia Yin, Guanghui Li, Guangyu Tan and Lihong Wen 15:00-15:20 Tea Break 15:20-15:50 Invited Speech Enabling Technologies for Future Grinding Research (Invited) Prof. Eamonn Ahearne 15:50-16:05 NO.71 Analysis for the Sieve Structure of Pulp Pressure Screen based on CFD Xueqing Rong, Yanbin Shi and Lili Zhang 16:05-16:20 NO.74 Double-wave Length Optical Fiber Laser and Its Application for Measurement of Displacement and Large Step Height Lianlian Dong, Fang Xie, Sen Ma and Yunzhi Wang 16:20-16:35 NO.77 Flank Wear of PVD TiAlN and TiAlCrN Coated Ti(C,N)-Mo2C-Ni Cermet Inserts during Turning 9CrSi2Mn Steel Tianen Yang, Ji Xiong and Wei Yang 16:35-16:50 NO.107 A Rolling Bearing Fault Diagnosis Method using Kernel-domain Spectrum Wenyi Liu and Qinwu Gao 16:50-17:05 NO.94 A Numerical Study of the PDMS Membrane Deformation in Pneumatic Microvalves Chang Chen, Yonggang Zhu and Huaying Chen 17:05-17:20 NO.Z9 Flexible Moment Compensation for Machining Accuracy of the Ultra-precision Micro Compound Machine Tool Yewang Sun, Xin Jin,Zhijing Zhang, Zhongpeng Zheng, Qinming Li and Tianyi Zhang 17:20-17:35 NO.Z8 A 3D Convex Hull-based Approach for Fitting a Datum Reference Frame and Evaluating Composite Position Error Zhiqiang Zhang, Jianhua Liu, Ning Zhao and Xiaoyu Ding 24

27 IMCC THE 17TH INTERNATIONAL MANUFACTURING CONFERENCE IN CHINA IMCC Session 10: Other Areas Related to Manufacturing - II (13:00-17:35) Room: Meeting Room 8 Session Chairman: Prof. Xiaodong Wang, Prof. Yanfeng Xing 13:00-13:30 Invited Speech Plasma-nanomanufacuturing for Damage-free Dry Processing of Difficult-to-machine Materials (Invited) Prof. Kazuya YAMAMURA 13:30-13:45 NO.117 Study on Interaction between Vibration Amplitude and Thrust Force in Ultrasonic Drilling of Glass Fiber-reinforced Plastics (GFRPs) Jun Qian, Wenhe Liao and Dominiek Reynaerts 13:45-14:00 NO.81 Structure Design and Optimization of a Tool Embedded with Nickel Chromium Film Sensors for Tri-axial Cutting Force Measurement Xuerui Li, Wenge Wu, Yunping Cheng, Lijuan Liu, Chenhui Ma and Xinyu Wang 14:00-14:15 NO.121 Evaluation of Surface Roughness in Machining SiCp/Al Composites Chunzheng Duan,Wei Sun and Zhan Feng 14:15-14:30 NO.Z10 Research on Precision Press-fit Assembly of Small Interference Fitting Parts Xingyuan Wang, Xiaodong Wang, and Zhifeng Lou 14:30-14:45 NO.Z11 Virtual Guidance Tele-assembly System for Final Assembly of the Fusion Ignition Target Weibin Rong and Yu Zou 14:45-15:00 NO.102 Wear Mechanisms of Ceramic Vibratory Finishing Media Eckart Uhlmann and Alexander Eulitz 15:00-15:20 Tea Break 15:20-15:50 Invited Speech New Developments on Micro/nano Manufacturing Science based on Evanescent Light (Invited) Prof. Satoru Takahashi 15:50-16:05 NO.Z3 Progressive Improvement of Underwater Glider for High Performance Lianhong Zhang, Yan Liang, and Yanhui Wang 16:05-16:20 NO.Z1 Accuracy Estimation of Coaxial Alignment Assembly System Chao Shao, Zhijing Zhang, Hao Wu 16:20-16:35 NO.Z4 Study on the Method of Precision Adjustment of Star Sensor Xiaoyan Wang, Ran Zheng, Yanpeng Wu, Miaomiao Wang, Long Wang 16:35-16:50 NO.Z7 Ontology-based Intelligent Assembly Knowledge Base Architecture Jiahui Qian, Zhijing Zhang, Xin Jin 16:50-17:05 NO.Z12 A Multi-objective Trajectory Planning Scheme for Cabins Assembly Mechanism with B-spline Curves Dong Chen, Shiqi Li, Junfeng Wang, Yi Feng and Yang Liu 17:05-17:20 NO.123 Analysis on the Meshing Characteristics of Curve Face Gear Pair Chao Lin and Chunjiang He 17:20-17:35 NO.Z2 Investigation on Dissimilar Metal Joints between Aluminum Alloy and Steel Qing Ji, Yanfeng Xing, Sha Xu 25

28 ICMTE 2017 THE 6TH INTERNATIONAL CONFERENCE OF MANUFACTURING TECHNOLOGY ENGINEERS Special Symposium for the Committee of Precise Assembly Technology (Speak In Chinese) 精密装配技术专题 (13:00-17:00) Room: Kylin Hall Session Chairman: 孙立宁 13:00-13:10 SC213 基于状态空间理论的螺栓连接结构应力 / 位移场计算 孙清超, 汪云龙, 赵斌斌, 孙伟 13:10-13:20 SC214 瞄准棱镜组件精密装配及检测技术研究 司高潞马步川王林李鹏 13:20-13:30 SC215 并联支撑精密主轴回转轨迹分析方法 孙岩辉 洪军 郭俊康 13:30-13:40 SC216 面向微小尺寸零件对接装配的半自动装配系统 毕列吴文荣张娟徐振源 13:40-13:50 SC217 空间站吊装安全监测系统研制及应用 刘孟周张成立万毕乐王鹏飞李明利杜福洲吴典 Session Chairman: 孙年俊 13:50-14:00 SC218 复合材料层合板许用装配载荷分析 张婷玉李杰姚文昊王洁钟扬裴天河李晴凇 14:00-14:10 SC219 面向航天器在轨装配的数字孪生技术 张玉良张佳朋王小丹沈晓宇陈锡宝刘检华 14:10-14:20 SC220 基于语义识别的产品装配关系自动生成方法 朱文敏范秀敏何其昌 14:20-14:30 SC221 载人航天器 CAD/CAM 数字化管路研制技术 高辉尚明友侯向阳苏南 14:30-14:40 SC222 精密光学仪器螺纹压圈扭矩 - 预紧力映射关系研究 王子夫张之敬金鑫崔璨 Session Chairman: 贺大兴 14:40-14:50 SC223 微装配中变焦变倍视觉系统标定及自动聚焦 任同群黄海亭王晓东刘钰 14:50-15:00 SC224 卫星结构热稳定性相似试验理论与技术 史海涛任璐 张晓峰 章磊 尹成爽 15:00-15:20 茶歇 15:20-15:30 SC225 适用于离散制造企业的柔性智能装配技术研究 王小丹张霞马永刘赛张佳朋 15:30-15:40 SC226 自动化控制系统在击发药等干混药剂安全生产中的应用 李红梅张伟孙安昌李辉徐争涛李健于丽 15:40-15:50 SC237 面向多种复杂零件的高精度人机协同装配系统 叶鑫刘玉红张之敬吴飞飞何理 Session Chairman: 王晓东 15:50-16:00 SC228 航天器总装中的电磁隔离与防护方法 方志开徐波涛徐志东冯同春张志龙 16:00-16:10 SC229 基于 MBE 的大型航天器数字化设计 - 制造 - 装配技术研究 金玮玮侯向阳刁常堃谷巍苏亮 16:10-16:20 SC230 惯性平台用星敏器安装精度自动测试方法研究 刘敏马步川王立哲 16:20-16:30 SC231 柔性装配型架调姿轨迹优化研究 方春平王洁李占树班晓伟李卫东 26

29 IMCC THE 17TH INTERNATIONAL MANUFACTURING CONFERENCE IN CHINA 16:30-16:40 SC232 基于制造特性的马达轴孔装配有限元分析马兆利金鑫张秋爽刘志华 Special Symposium for the Committee of Testing and Measurement (Speak In Chinese) 测试技术专题 (13:00-15:50) Room: Meeting Room 2 13:00-13:30 SC301 Developments of 3D Dynamic Measurement by Digital Speckle Technique 王永红合肥工业大学 13:30-14:00 SC302 航空航天发动机先进光学检测方案 孟书广海克斯康测量技术 ( 青岛 ) 有限公司 14:00-14:30 SC303 以等离子体亮度为反馈的飞秒激光微通道闭环铣削加工的研究 陈剑雄福州大学 14:30-15 :00 SC304 基于三维扫描测量技术的齿轮检测张海亮哈尔滨量具刃具集团有限责任公司 15:00-15:20 茶歇 15:20-15:50 SC305 基于结构光基准的大尺寸空间位姿测量技术及应用 胡文川天津大学 Special Symposium for the Committee of Precise Engineering (Speak In Chinese) 精密工程专题 (13:00-17:50) Room: Meeting Room 3 13:00-13:30 SC401 磨削力可控的大型少轴光学磨床及展望 殷跃红 上海交通大学 13:30-14:00 SC402 大口径碳化硅陶瓷反射镜超精密磨削技术研究 张飞虎 哈尔滨工业大学 14:00-14:30 SC403 大口径光学系统先进制造技术 薛栋林 中科院长春光机所 14:30-15:00 SC404 机器人光学加工进展 万勇建 中科院成都光电所 15:00-15:20 茶歇 15:20-15:50 SC405 题目待定 郑列华 中科院上海技物所 15:50-16:20 SC406 光学微结构 / 微透镜阵列模压成形技术 周天丰 北京理工大学 16:20-16:50 SC407 光学系统快响制造 彭小强 国防科技大学 - 16:50-17:20 SC408 衍射光学元件车削加工及检测技术 张云龙 205 所 17:20-17:50 SC409 航天惯性仪表精密智能制造的实践与思考 姚竹贤 航天 13 所 27

30 ICMTE 2017 THE 6TH INTERNATIONAL CONFERENCE OF MANUFACTURING TECHNOLOGY ENGINEERS INVITED SPEAKERS SPEAKER 1 The Challenge to Manufacturing of an Ageing World Population Prof. Joe McGeough People are living longer. With age comes an increase in degeneration of bone and joints due to wear and tear, and the onset of arthritis. The effect of the latter disease is one of the most common causes of the need for joint replacement, especially of the knee. The increasing consumption of energy-dense food, high-sugar content drinks, often coupled with physical inactivity have led to more than a three-fold rise in obesity over the last thirty years. Obesity is a major contributor to osteo-arthritis (OA), smoking, high consumptions of caffeine and of red meat are known to promote rheumatoid arthritis (RA). These diseases are two of the most common causes of the need for joint replacement. They are about three times more likely to occur in women than in men. Joints in the body may be replaced by metal alloys, ceramics and polymers: including stainless steel, cobalt - or titanium-based alloys, oxide ceramics, ultra-high molecular weight polythene. These materials will be discussed in Keynote address and their engineering properties that make them suitable for joint replacement. (Wear and friction, fatigue and creep and corrosion of these materials will be discussed). Although established methods of manufacture are mainly used to produce these materials to specified requirements, the increasing place of unconventional processes will be discussed, including electrochemical machining ((ECM) and electro-polishing. The need for surface coatings to enhance bio-compatibility with adjacent tissue will be explained, and the quest for improvements in this aspect of manufacturing technology. The increasing applications for computer-aided design and manufacture (CAD/CAM) will be addressed. The CAD/CAM link to rapid prototyping (RP), especially for creating three-dimensional solid models of proposed implants will be presented. Finally, future trends for robotic-assisted joint replacements will be highlighted. Profile: McGeough's books include Principles of Electrochemical Machining (1974), Advanced Methods of Machining (1988), Micromachining of Engineering Materials (editor, 2001) and The Engineering of Human Joint Replacements (2013). He is author of "Electroforming" for the Encyclopaedia of Production Engineering (2013). The IMechE and the Society for Underwater Technology have awarded prizes for his researches. McGeough is a Fellow of the Institution of Mechanical Engineers, the Royal Society of Edinburgh, the International Academy for Production Engineering, and the Royal Academy of Engineering. He has held visiting appointments at Dublin City University. He is an Honorary Professor of Nanjing University of Aeronautics and Astronautics. 28

31 IMCC THE 17TH INTERNATIONAL MANUFACTURING CONFERENCE IN CHINA SPEAKER 2 Material Surface Functionalization by Laser Micro/Nano Structuring Prof. Lin Li This presentation summarises several applications of laser surface micro/nano texturing and structuring techniques for creating and controlling specific surface properties of metallic, ceramic, semiconductor and composite materials, investigated by the author s research group over the last 15 years. These surface functions include wettability, light interactions (absorption, reflection and scattering), invisible marking, cell responses, bacteria responses, aerodynamic properties, wear, and coating/adhesions. The production of various 2D and 3D micro/nano structures using ns, ps and fs lasers and the mechanisms of generating specific surface properties are discussed. Profile: Professor Lin Li, is an elected Fellow of Royal Academy of Engineering, International Academy of Production Engineering, Laser Institute of America, and Institute of Engineering and Technology. He is currently Director of Laser Processing Research Centre and Associate Dean for Business Engagement and Innovation in the Faculty of Science and Engineering at The University of Manchester, UK. He has been the President of Laser Institute of America (2016), President of International Academy of Photonics and Laser Engineering ( ), and Vice President of Association of Industrial Laser Users (AILU ). He received Arthur Charles Main Award from the Institute of Mechanical Engineers in 2001 for work in laser based nuclear decommissioning technology. He received the Sir Frank Whittle Medal from the Royal Academy of Engineering in 2013 for his outstanding and sustained achievements in engineering innovations in manufacturing that has led to worldwide commercial applications. In 2014 he received Wolfson Research Merit Award from the Royal Society for his research on laser nano-fabrication and nano-imaging, and received the Distinguished Achievement Medal as the Researcher of the Year medal at The University of Manchester in

32 ICMTE 2017 THE 6TH INTERNATIONAL CONFERENCE OF MANUFACTURING TECHNOLOGY ENGINEERS SPEAKER 3 New Paradigm of Manufacturing for Electronics Technology of Printed Electronics Prof. Sung Lim Ko Printed electronics has been the one of the most attractive technologies for manufacturing electronics like RFID, sensors, OPV, OLED and OTFT. Those electronics has been manufactured by the batch process mostly, which requires higher cost up to now. Therefore the effort to reduce the cost has been carried out. One of the technologies for these efforts is the printed electronics. For mass production of these electronics to reduce the cost, the flexible substrate must be used by printing technology which is very popular in graphical publication. As a basic concept of printed electronics, R2R technology is served as platform for all the components of electronics, which will be introduced in each field for sensors, OPV and OLED. However the electrical performance like resistance, conductivity, mobility and efficiency are proved to be very poor compared to the current manufacturing technology. In this sense, the related industry is trying to find a more applicable industrial field which printed electronics can be applied successfully. This current situation and limitation of printed electronics will be discussed and future of this technology will be discussed. Profile: Professor, Mechanical Engineering Department, Konkuk University, Seoul, Korea Bachelor and master degree are acquired at mechanical eng., dep. of Seoul National University, and PhD at University of California at Berkeley in He has two major concerns: one is Precision Manufacturing on precision machining and finishing process like deburring. He has managed National Research Laboratory in this field from 2001; another one is on printed electronics from 2006 and now he is a director of KU-VTT Printed electronics Center, which is a program of collaboration with VTT, Finland National Research Center. 30

33 IMCC THE 17TH INTERNATIONAL MANUFACTURING CONFERENCE IN CHINA SPEAKER 4 Additive Manufacturing of Metallic Components: the Final Competition between Powders and Wires under Different Energy Field Prof. Xiaoyan Zeng Since 3D printing technology (i.e. additive manufacturing) was high-lighted a cutting-edge in 2012, 3D printing becomes the headlines frequently. Especially, additive manufacturing of metallic components has developed very rapidly in the past years, which brings a revolutionary progress in advanced manufacturing industry, especially in aerospace, bioengineering, mechanical and electric engineering, energy and transportation. Although there are many additive manufacturing techniques, such as laser melting deposition (LMD), selective laser melting (SLM), electron beam selective melting (EBSM), Ion Beam Melting Deposition (IBMD), Wire and Arc Additive Manufacture (WAAM), Electron Beam Freeform Fabrication (EBFF) and/or their hybrid methods, there are only two formats for the additive materials, metallic powders and wires, which determine the microstructure, performance and precision of the formed components finally, combined with the imported power field. In this presentation, the advantages and disadvantages of the additive manufacturing for metallic components based on powders and wires,especially by laser beam, electron beam and electric arc are analyzed and compared. The developing tendency of the concerned 3D printing techniques is introduced, and the great challenging and opportunity for traditional materials, material processing, and manufacturing techniques of metallic components are discussed and forecast. Besides, the main progresses of additive manufacturing on SLM, LMD and WAAM developed in Wuhan National Laboratory for Optoelectronics, Huazhong University of Science and Technology are reported. Profile: Prof. Xiaoyan Zeng is professor and the director of Laser Processing Department, Wuhan National Laboratory for Optoelectronics (WNLO), Huazhong University of Science and Technology (HUST). He has been in the field of laser processing techniques for more than 30 years, and his interests cover laser additive manufacturing, laser surface engineering, laser welding and laser micro processing. He has published about 300 journal papers, of which more than 120 papers were published in the international reputation journals. He owns more than 70 Patents, and more than 30 patents are pending. His many research works have come into industrial applications, and made vast economic values for industry. 31

34 ICMTE 2017 THE 6TH INTERNATIONAL CONFERENCE OF MANUFACTURING TECHNOLOGY ENGINEERS SPEAKER 5 Augmented Reality Assisted Maintenance and Disassembly Prof. Andrew Y C Nee Maintenance and disassembly both require dismantling of components, whether for replacement or remanufacturing. Extensive laboratory tests have shown that augmented reality can reduce cognitive load, and offer a more intuitive working environment to the operators. Service technicians working on site can consult remote experts for providing necessary advice via AR interfaces. Equipment can be made to communicate with technicians, providing them with the current and historical states of operating conditions in real time. Psychomotor studies can help reduce operator fatigue and provide them with the best posture to alleviate physical strain in maintenance and disassembly operations. This presentation also touches on the quality of maintenance operations including the estimation of cognition load and fatigue of operators, measurement of comfort and safety, reliability and risk assessment, etc. Real-time data capture and analysis using IIoT and cloud technology is another potential area to be considered. Profile: Andrew Y C Nee is a professor in the Department of Mechanical Engineering, National University of Singapore. He received his PhD and DEng from Manchester and UMIST respectively. He was elected a Fellow of the International Academy for Production Engineering (CIRP) in 1990 and served as its president in He is the first ethic Chinese to be elected President since CIRP s formation in He is an elected Fellow of the US Society of Manufacturing Engineers (SME) and its Gold Medal recipient in He is Editor-in-Chief of Springer s Advanced Manufacturing Technology and Associate Editor-in-Chief of Advances in Manufacturing. Major research awards include: IEEE Kayamori Award (1999), IJPR Norman Dudley Award (2003), IMechE Joseph Whitworth Prize (2010). He has graduated 48 PhD and 46 MEng, with GS citation of 11,130 and H-Index

35 IMCC THE 17TH INTERNATIONAL MANUFACTURING CONFERENCE IN CHINA SPEAKER 6 Design of Holonic Manufacturing Systems Prof. Hendrik Van Brussel The introduction of CIM (Computer Integrated Manufacturing) systems in the 1980s, aiming at integrating automatic workstations into fully automated factories, was not successful. The root causes of this failure were that the subsystems to be integrated were not suitably designed for easy integration into a larger system, and the adopted hierarchical control schemes made the overall system not robust against disturbances (e.g. machine breakdown, rush orders) and system changes (e.g. adding a new machine). This situation stimulated the authors to embark on a research program on design for the unexpected. It defined how subsystems have to be designed so that integration into larger systems becomes easier and how such an integrated system can be controlled so that it can cope with disturbances. In the keynote paper, the underlying laws of the artificial and the salient features of holonic manufacturing systems (HMS) are outlined. The PROSA reference architecture, defining the basic structure of any HMS, is briefly explained. It will be explained how coordination and control of the HMS is achieved by a holonic execution system (HES), based on a biologically inspired DMAS (Delegate Multi-Agent System). The power and universality of the PROSA/DMAS architecture will be demonstrated by some case studies from manufacturing and robotics. Profile: Professor dr. ir. Hendrik (Rik) Van Brussel (24 October 1944, Ypres, Belgium) is a Belgian emeritus professor of mechanical engineering of the Katholieke Universiteit Leuven (KU Leuven), world-renowned for his research on robotics, mechatronics and holonic manufacturing systems. Prof. Van Brussel received the degrees of technical engineer in mechanical engineering (B.Sc.), in 1965 from HTI, Ostend, Belgium; of civil engineer in electronic engineering (M.Sc.) in 1968 from Katholieke Universiteit Leuven, Belgium and of Doctor of Applied Sciences (Ph.D.) in 1971, also from KU Leuven, thesis: "Dynamical analysis of the cutting process". In his whole career, spanning a period of more than 40 years, he has been active in the intersection zone between several disciplines: mechanical engineering, electronics and control engineering, information technology; a domain which is now called "mechatronics". Apart from his extensive work in Cutting dynamics, Structural dynamics, Computer-Integrated Manufacture (CIM), and Micro and Precision Engineering, the rest of Van Brussel s work may be organized under the following three main topics: Robotics, Mechatronics, Holonic Manufacturing Systems (Multi-agent systems). 33

36 ICMTE 2017 THE 6TH INTERNATIONAL CONFERENCE OF MANUFACTURING TECHNOLOGY ENGINEERS SPEAKER 7 Research and Development towards Next-generation Metal Cutting Technology Prof. Eiji Shamoto Metal cutting is still one of the most important fundamental manufacturing processes which creates shapes of most industrial products directly or indirectly utilizing dies and molds. Hence, advances in metal cutting technology lead to great benefit to society such as cost reduction, performance improvement, and lead time reduction of existing products, and even realization of new products. It this talk, new metal cutting technology, which has recently been developed towards more precise, more efficient, and fully automated metal cutting, is introduced, including Elliptical Vibration Cutting, Speed-Differing Multi-Milling, and Chip-Guiding Cutting. The elliptical vibration cutting has realized ultraprecision/micro machining of difficult-to-cut materials like hardened die steel, and it is commercialized mainly for precision die/mold machining. The speed-differing multi-milling improves machining efficiency and accuracy considerably, e.g. by several times, by suppressing regenerative chatter vibration in multi-milling with a flexible structure, and as an example it is utilized for mass production of precision steel plates. The chip-guiding cutting has recently been proposed to avoid chip jamming, and it is expected that it will not only achieve the avoidance but also reduce cutting force/temperature by combining chip-pulling technology. Profile: Professor Eiji Shamoto obtained his Bachelor (1984), Master (1986) and Ph.D. (1989) degrees from Nagoya University, Japan. He worked in Kobe University, Japan, as a research associate from 1989 and became an associate professor in Kobe University (1994). During his career in Kobe, he has stayed in Canada as a visiting researcher for 10 months ( ), working in University of British Columbia. Professor Shamoto has been working in Nagoya University as a professor since His research interest includes metal cutting, machine tool dynamics and control, actuators and precision machine elements. Professor Shamoto has graduated more than 80 PhD and M.S. students. He has authored and/or co-authored more than 100 archival journal articles and has given over 200 invited presentations and seminars at various conferences, industries, foundations and universities. He has received more than 20 patents. Many of the invented and developed technologies have been utilized in Industry, e.g. Elliptical Vibration Cutting is widely utilized for precision/micro die/mold machining, and Speed-Differing Multi-Milling is recently utilized for mass production of precision steel plates. 34

37 IMCC THE 17TH INTERNATIONAL MANUFACTURING CONFERENCE IN CHINA SPEAKER 8 Design and Control of 6-legged Parallel-Parallel Robots for Moving and Manufacturing Integration Prof. Feng Gao Research on the walking robots has been one of key topics in robotics for a long time. In recent years, many legged robots were developed in the world, which of them achieved great progress and received much attention from the robotic field. The most important challenging issues are the design and human robot Interaction control of the legged robots. This speech will introduce our research on both mechanism design and real time control of the 6-legged parallel-parallel robots for the moving and manufacturing integration, which include the following issues: design process of type synthesis for legged robots by GF set theory, real-time operating system for legged robots, hexapod robot with safe riding capability, walking based on force sensing., obstacle avoidance with both vision and F/T sensor, walking upstairs by vision, human-robot interactive assembly based on F/T sensor, manufacturing based on F/T sensor, locked door opening based on F/T sensor for legged robots, and so on. Profile: Feng Gao was born on Dec. 21, 1956 in Jiujiang City of Jiangxi Provence, P. R. of China. He got his Ph.D. in mechanical engineering from the Beijing University of Aeronautics and Astronautics in 1991 and his Master in mechanical engineering from the Northeast Heavy Machinery Institute, China in From 1995 to 1997, he was a postdoctoral research associate in the School of Engineering Science at Simon Fraser University, Canada. He has been serving as an Associate Editor of Mechanism and Machine Theory and the ASME Journal of Mechanisms and Robotics since 2008 and the ASME Journal of Mechanical Design since 2012, and the General Member of the ASME Mechanisms and Robotics Committee since He gave the Keynote Speeches on the conferences of the ASME 2012 and IFToMM 2015, respectively. He won the 2013 China National Natural Science Award because of his contributions in parallel mechanism design and the 8 items of awards from the provincial science and technology invention prizes in China Dr. Gao won 2014 ASME Leonardo Da Vinci Award for his invention of parallel manipulators. His chief research domain is the parallel robots. The major achievements obtained include the design theory, invention and application of the parallel robots. In the theory aspect, he proposed the GF Set Theory for the type synthesis of parallel robotic mechanisms, the evaluating performance criteria and the physical model of the solution space for dimensional designing of parallel robotic mechanisms. In the application aspect, he Invented and Designed many kinds of the robots and machines with parallel mechanisms for heavy load applications. He published 3 books and 288 papers. The 120 invention patents were authorized in China. 35

38 ICMTE 2017 THE 6TH INTERNATIONAL CONFERENCE OF MANUFACTURING TECHNOLOGY ENGINEERS SPEAKER 9 Additive Manufacturing a New Technology Moving from Academia to Industry Prof. Rafi Wertheim Additive Manufacturing (AM) is moving very fast from a science and academia topic towards actual application in the industry. The various AM processes, creating real components and products by adding material in a layer by layer process, are gaining a continuous and significant place in many areas of our daily lives, in the industry, in education and in R&D activities. The keynote is based on the most recent developments and achievements in Germany and in Israel. The recent 15th GCSM 2017 conference discussed the AM processes together with various sustainability aspects. The paper presents the influence of design criteria and manufacturing parameters on AM products for the aerospace, automotive, medical, and industrial products. Examples made of various materials, including metals and ceramics, as well as real products like molds and dies, medical instruments or aerospace and automotive components, will be included in the presentation. Profile: Dr Ing. Rafael Wertheim is Professor Mechanical Engineering at IWU Fraunhofer Institute in Germany since He has served as Head of Machining Technology Department at Chemnitz University of Technology and Head of Metal Cutting Department at IWU-Fraunhofer. He is also an adjunct professor of Mechanical Engineering and Industrial Management at Israel Institute of Technology. He was ISCAR LTD Manager of Engineering from He is very active in The International Academy for Production Engineering (CIRP). He served as the CIRP President in and is a prestigious Honorary Fellow of CIRP since He has been honored by the coveted SME Frederick W. Taylor Research Medal for his significant published research leading to a better understanding of materials, facilities principles and operations and their application to improving the manufacturing process. He has authored 7 books, 7 patents, and over 200 papers in these areas. In addition to academia, Dr. Wertheim is also very active social and political activates in Israel and Germany. He Was Mayor of Qiryat Bialik in Israel from and is a member of town council since 1987.In addition, he is an active member Of Jewish Community and Mentor and Moderator for Germany Officers in Chemnitz, Germany. He received his Dr -Ing. In production engineering from RWTH Aachen in 1975, M.Sc. and B.Sc. in mechanical engineering from The Technion in 1970 and 1968, respectively. In the last 3 years he is also the Fraunhofer Senior Advisor für Israel. 36

39 IMCC THE 17TH INTERNATIONAL MANUFACTURING CONFERENCE IN CHINA SPEAKER 10 Enriching Additive Manufacturing Metrology Prof. Richard Leach Additive manufacturing facilitates the manufacture of highly complex geometries a bonus for designers but a headache for metrologists. The keynote will address a new approach to metrology which can help to solve some of the outstanding issues in additive (and more generally, digital) manufacturing. Information-rich metrology (IRM) is a new term that refers to an approach, or better a philosophy of thought, where the conventional paradigm of measurement (measurement information gathered solely through the physical interaction of the instrument with the measured object) is transcended, thanks to the introduction and active role of multiple novel sources of information. The overarching goal of IRM is to encompass and homogenise all those measurement scenarios where information available from heterogeneous sources, for example, from the object being measured, the manufacturing process that was used to fabricate it, the workings of the measurement instrument itself, as well as from any previous measurements carried with any other instrument, is gathered and somewhat incorporated with an active role into the measurement pipeline in order to ultimately achieve a higher-quality measurement result (better metrological performance, shorter measurement times, smaller consumption of resources). Examples of IRM in action in additive manufacturing will be presented, including the measurement of form and texture, external and internal features, and post- and in-process. Profile: Richard is currently a professor in metrology at the University of Nottingham and prior to this spent 25 years at the National Physical Laboratory. Richard's research is dominated by what he calls "information-rich metrology": the enhancement of manufacturing metrology through the use of a priori information, often utilising concepts from artificial intelligence. His current interests are the dimensional measurement of precision and additive manufactured structures. Richard obtained a PhD in Surface Metrology from University of Warwick in 2000 and a DSc from Warwick in Richard is on the Council of the European Society of Precision Engineering and Nanotechnology, the International Committee on Measurements and Instrumentation and several international standards committees. He is the European Editor-in-Chief for Precision Engineering. He has over 350 publications including five textbooks. He is a Fellow of the Institute of Physics, the Institution of Engineering & Technology, the International Society of Nanomanufacturing and a Sustained Member of the American Society of Precision Engineering. He is a visiting professor at Loughborough University and the Harbin Institute of Technology. 37

40 ICMTE 2017 THE 6TH INTERNATIONAL CONFERENCE OF MANUFACTURING TECHNOLOGY ENGINEERS SPEAKER 11 Additive Manufacturing and Three-Dimensional Bioprinting: Frontier and Scientific Challenges Prof. Yong Huang Additive manufacturing, commonly known as three-dimensional (3D) printing, is a suite of computer automated technologies to fabricate 3D structural and functional parts, usually layer by layer, from 3D model data. Currently, the technology has been applied in various industries including automotive, aerospace, biomedical, energy, consumer goods and many others. Of these applications, 3D bioprinting is a revolutionary advance for printing arbitrary cell patterns as well as creating heterogeneous living constructs. Most importantly, cell printing provides a promising solution to the problem of organ donor shortages by printing 3D tissue/organ constructs for implantation, resulting in what is known as organ printing. The talk first reviews the definition and classification of additive manufacturing and the perspective of ongoing bioprinting research. Then it introduces process innovations in 3D bioprinting using extrusion, drop-on-demand inkjetting, and drop-on-demand laser-induced forward transfer technologies. Finally, this talk shares some thoughts regarding frontier and basic scientific challenges of additive manufacturing, in particular, those related to bioprinting. Profile: Dr. Yong Huang is a professor of Mechanical and Aerospace Engineering, Biomedical Engineering, and Materials Science and Engineering at the University of Florida, Gainesville, Florida. His research interests are two-fold: 1) processing of biological and engineering materials for healthcare/energy applications, and 2) understanding of material dynamic behavior during manufacturing and process-induced damage or defect structures. His current research topics include three-dimensional (3D) printing of biological and engineering structures, precision engineering of medical implants and performance evaluation of machined implants, and fabrication of polymeric microspheres / microcapsules / hollow fiber membranes. He served as the Technical Program Chair for the 2010 American Society of Mechanical Engineers International Manufacturing Science and Engineering Conference (ASME MSEC 2010) and the 2012 International Symposium on Flexible Automation (ISFA 2012). He received various awards for his manufacturing research contributions including the ASME Blackall Machine Tool and Gage Award (2005), the Society of Manufacturing Engineers Outstanding Young Manufacturing Engineer Award (2006), the NSF CAREER Award (2008), and the ASME International Symposium on Flexible Automation Young Investigator Award (2008). He received his Ph.D. in Mechanical Engineering from the Georgia Institute of Technology in 2002 and is a Fellow of ASME. 38

41 IMCC THE 17TH INTERNATIONAL MANUFACTURING CONFERENCE IN CHINA SPEAKER 12 Industry 4.0 and Circular Economy Prof. Seeram Ramakrishna Emerging industrial revolution known as Industry 4.0, characterized by a confluence of new technologies, from Internet of Things (IoT), machine learning, cloud computing, big data analytics, artificial intelligence (AI), sensors, robotics, 3D printing, wearables, to mind-technologies, biotechnology and nanotechnology, will transform production systems, business models, economic growth, employment, and sustainability. Circular economy, CE is an alternative to a traditional linear economy, in which we keep resources in use for as long as possible, extract the maximum value from them whilst in use, then recover and regenerate products and materials at the end of each service life. CE too an emerging trend derived from scientific fields and semi scientific concepts. CE emphasizes the 3Rs (reduce, reuse, recycle) and the 6Rs (reuse, recycle, redesign, remanufacture, reduce, recover). This lecture examines the availability and readiness of industry 4.0 technologies to support and promote the circular economy. Other questions that will be addressed include which sectors of the economy will have the most impact? Which industries and businesses will be benefited and who will be affected? What are the opportunities for innovation? What are the best practices around the world, and examples to emulate? What are the changes needed in engineering education to nurture future engineers? Profile: Academician Seeram Ramakrishna, FREng is a Professor of Mechanical Engineering at the National University of Singapore (NUS). He pioneered nanotechnology in Singapore. He leads the Circular Economy taskforce at NUS with members from across university and ASTAR, Singapore. He is a member of World Economic Forum s Technology and Innovation for the Future of Production committee. He co-chairs the Smart Manufacturing Expert Group at SPRING, Singapore. He chairs the Future of Manufacturing technical committee at the Institution of Engineers Singapore. He is a Highly Cited Researcher in Materials Science (Clarivate Analytics). Thomson Reuters identified him among the World s most influential scientific minds. A European study ( placed him among the only five researchers from Singapore with H index over 100, and among the only 1612 highly cited researchers (h>100) in the world. He received PhD from the University of Cambridge, UK, and The General Management Training from the Harvard University, USA. He is an elected Fellow of UK Royal Academy of Engineering (FREng); Singapore Academy of Engineering; Indian National Academy of Engineering; and ASEAN Academy of Engineering & Technology. He is an elected Fellow of International Union of Societies of Biomaterials Science and Engineering (FBSE); Institution of Engineers Singapore; ISTE, India; Institution of Mechanical Engineers and Institute of Materials, Minerals & Mining, UK; and American Association of the Advancement of Science; ASM International; American Society for Mechanical Engineers; American Institute for Medical & Biological Engineering, USA. His leadership roles include University Vice-President (Research Strategy); Dean of Faculty of Engineering; Director of NUS Enterprise; Director of NUS Industry Liaison Office; Founding Director of NUS Bioengineering; Founding Co-Director of NUS Nanoscience & Nanotechnology Initiative, NUSNNI; and Founding Chairman of Solar Energy Research Institute of Singapore, SERIS. He served on the boards of several national organizations. He founded a successful international organization the Global Engineering Deans Council, GEDC ( 39

42 ICMTE 2017 THE 6TH INTERNATIONAL CONFERENCE OF MANUFACTURING TECHNOLOGY ENGINEERS SPEAKER 13 Opportunities and Applications of 3D Additive Manufacturing Prof. Jun Wei 3D Additive Manufacturing (AM) is defined by ASTM as the "The process of joining materials to make objects from 3D model data, usually layer upon layer, as opposed to subtractive manufacturing methodologies. Traditional manufacturing has fueled the industrial revolution that has enabled our world today, yet it contains inherent limitations that point to the need for new approaches. Casting, forming, molding, and machining are complex processes that involve tooling, machinery, computers, and robots. The competitive advantages of 3D AM are geometrical freedom, shortened design to product time, reduction in process steps, mass customization and material flexibility. 3D AM simplifies the laborious process of producing complex parts while reducing cost. It is predisposed to industry sectors that require high mix, low volume parts or customized parts. This presentation will highlight the opportunities and applications of 3D additive manufacturing in a number of growing industry sectors including Aerospace, Transportation, Oil & Gas, Precision Engineering, MedTech, Electronics, Energy and Consumer. In addition, the 3D additive manufacturing research activities in A*STAR/ SIMTech will also be introduced. Profile: Dr Wei Jun is currently the Principal Scientist in Singapore Institute of Manufacturing Technology (SIMTech), the Program Manager of 3D Additive Manufacturing Program and Large Area Processing Program. He is leading the 3D additive manufacturing program to develop a number of critical technologies to boost Singapore manufacturing industry. Under his leadership, A*STAR and SIMTech has established one-stop platform and ecosystem for 3D AM: design, modelling & simulation, materials development, manufacturing processes, equipment and product development, pre- & post-processing (such as powder preparation, heat-treatment, machining & polishing, coating), metrology & inspection, and applications. The developed technologies are being transferred to the Singapore manufacturing industry through collaborative industrial research, where industry partners participate to develop specific AM technology capabilities, and manpower training. He has authored and co-authored over 600 publications with citations over times. He is holding more than 60 technology disclosures and patents. He is serving several international conference committees and editorial boards. 40

43 IMCC THE 17TH INTERNATIONAL MANUFACTURING CONFERENCE IN CHINA SPEAKER 14 Recent Advancement in Engineering Accreditation and the NTUME Implementation Prof. Jia-Yush Yen The Washington accord as the world s leading Engineering Education Accreditation alliance has been continuously improving or continuously evolving. Over the years there had been major changes both in the published graduate attributes and the signatories view toward them. The changes not only changed the signatories requirement on their education provider to elevate their education standard, but also promoted the implementation of the capstone courses. This talk will first briefly introduce these changes and how these changes had affected the execution of the WA review by the WA signatories on the review process. I will then introduce the implementation of these new requirements by the Institute of Engineering Education Taiwan. With the underlining IEET requirements, this talk will then move on to share the actions taken by the Department of Mechanical Engineering of National Taiwan University and the preliminary results. Profile: Professor Jia-Yush Yen received the B.S. degree from National Tsing-Hwa University, Taiwan in 1980, the M.Sc. degree from University of Minnesota, USA, in 1983, and the Ph.D. degree from University of California, Berkeley in 1989, all in mechanical engineering. He then joined the Mechanical Engineering faculty of National Taiwan University where he served as the Department Chair ( ), the director of Tjing-Ling Industrial Research Institute ( ), and the Dean of the College of Engineering ( ). Prof. Yen has a very active academic career. He served as the Chair of the Automation Area for the National Science Council for three years. He was the Secretary General of the Institute of Engineering Education Taiwan. He served as the President of the Chinese Institute of Automation Engineers (CIAE) for four years. He is the fellow of ASME, Chinese Society of Mechanical Eng., and CIAE. Dr. Yen received many awards, among them twice the Outstanding Research Award from Taiwan National Science Council (now the Ministry of Science and Technology) is awarded only to the topmost researchers in their area. Dr. Yen also received numerous complements from the government for his public services. He had also served as consultant for many companies and institutes. His research interests are in the areas of mechatronic systems, precision servo control, and nano-manipulations. 41

44 ICMTE 2017 THE 6TH INTERNATIONAL CONFERENCE OF MANUFACTURING TECHNOLOGY ENGINEERS SPEAKER 15 Abrasive-Free Planarization of Functional Materials by Catalyst Referred Etching Prof. Yamauchi Kazuto A novel abrasive-free planarization method named catalyst-referred etching (CARE) was developed. The apparatus of CARE is nearly the same as that of conventional CMP. As a unique difference, a polishing pad coated by a catalytic material with the thickness of about 100nm is used in CARE. During the processing, topmost areas of the work surface, which contacts more frequently with the catalytic pad, are preferentially etched off through the catalytically induced chemical etching, leading to quick and effective flattening of work surface. Currently, CARE with pure water, named water-care, has been developed, in which Pt and pure water are employed respectively for a catalyst and an etchant. This method has lately attracted considerable attention to be a new planarization method with natures of clean room compatibility and eco-friendliness. This paper reviews the CARE method from the viewpoints of the equipment configuration and applicability to functional materials. 4H-SiC, GaN, and SiO2 glass substrates are respectively employed as single crystalline and amorphous materials. In the crystalline materials, geometrically and crystallographically well-ordered surface with a step-and-terrace structure was observed over the whole area of the 2 inch substrate. The height of the step was a single bilayer. Also in the glass material, atomically smoothed surface was obtained. Profile: Professor Kazuto Yamauchi received his Ph.D. from Osaka University, Japan in He has occupied the professor position at Osaka University since 2003, and has been a Leader of Center of Excellence for Atomically Controlled Fabrication Process of Osaka University since He is a Fellow member of SPIE from He is working in the field of precision fabrication for precision optics and electronic devices, and is studying to realize atomically controlled surfaces through developing new surface processing and evaluation methods. 42

45 IMCC THE 17TH INTERNATIONAL MANUFACTURING CONFERENCE IN CHINA SPEAKER 16 Advances in X-ray Computed Tomography for Dimensional Metrology Prof. Enrico Savio X-ray computed tomography (CT) recently emerged as an advanced measuring technology for dimensional and geometrical measurements in industry. CT coordinate measurements offer several advantages with respect to tactile and optical coordinate measurements. For example, CT enables non-destructive and non-contact inspections of features that can be both accessible (e.g. external) or difficult to be accessed (e.g. internal), with simultaneous material analysis and dimensional quality control. Typical industrial applications are: CAD comparison, wall-thickness analysis, defect analysis, analysis of assembly, wear evaluation, fibre orientation analysis and quality assessment of complex additive manufactured parts. The dimensional measurement accuracy of CT systems must be verified in order to achieve traceability to the unit of length (meter) and comparability of CT to other dimensional measuring techniques. With this aim, CT metrological performances must be periodically tested and uncertainty of CT dimensional measurements must be determined for each specific measurement task. Metrological performance verification is usually conducted by measuring CT-specific reference objects featuring calibrated dimensions. This presentation describes the reference objects developed at University of Padova for the assessment of length measurement errors, metrological structural resolution, accuracy of CT porosity analysis, accuracy of micro-gap measurements and CT geometrical errors. The CT Audit international intercomparison, coordinated by University of Padova, demonstrated that only a minority of participants were able to perform length measurements with errors below their CT systems specification. Moreover, the participants had difficulties in evaluating measurement uncertainty appropriately. Determining the task-specific uncertainty is challenging because of many complex influence quantities that can affect CT measurements. For example, the influence of surface roughness on CT dimensional measurements is discussed in this presentation. The urgent need for international standards and appropriate training and education dedicated to dimensional CT is also discussed. Profile: Enrico Savio is Professor of Manufacturing Engineering at the University of Padova, Italy, with research focus on Manufacturing Metrology, including X-Ray Computed Tomography, and economics of metrological activities in industry. In 2003 he was awarded the F.W. Taylor Medal from CIRP (International Academy for Production Engineering). He is currently Chairman of the CIRP Scientific Technical Committee Surfaces and Council Member of EUSPEN (European Society for Precision Engineering and Nanotechnology). Responsible of contract work with industry, national and international research projects, he is author of five patents and over 120 publications on international journals or proceedings of international conferences. 43

46 ICMTE 2017 THE 6TH INTERNATIONAL CONFERENCE OF MANUFACTURING TECHNOLOGY ENGINEERS SPEAKER 17 New Developments on Micro/Nano Manufacturing Science based on Evanescent Light Prof. Satoru Takahashi In the micro manufacturing field, light energy based production technologies such as photolithography, stereolithography, and various types of laser applied in-process measurement methods have been playing important roles for manufacturing the advanced products. Generally, the spatial resolution of the light energy based technologies is physically governed by the diffraction limit of freely propagating light. That means that the spatial resolution for fabrication or sensing remains limited to approximately half the wavelength of light. We conduct research on advanced light energy based micro/nano production technology, which can be applied to the next-generation micro/nano manufacturing by focusing on special localized photon energy. In order to realize our target, not only conventional light energy propagating in free-space but also localized light energy emerging at near-field region of bulk material like evanescent light is applied as manufacturing techniques. In this talk, I would like to present the challenges of the spatial resolution improvement of optical fabrication and measurement techniques using evanescent light, which can be generated under a total internal reflection condition. 1) Micro/nano photofabrication using evanescent light energy, and 2) in-process super-resolution high-sensitive optical measurement for nano-defects in semiconductor industry will be introduced and their possibility for the next-generation microstructure manufacturing will be discussed. Profile: Satoru Takahashi, born 1969, received his bachelor s and master s degrees in the Mechanical Engineering for Industrial Machinery and Systems from Osaka University, Japan in 1993 and 1995, respectively. He received his doctor degree from Osaka University in He is currently working as a full professor of the University of Tokyo (UTokyo), Japan, and leads the Photon based Advanced Manufacturing Science Division of the Research Center for Advanced Science and Technology (RCAST) of UTokyo. His research interests include the nano-in-process measurement, nano-scale-metrology, and nano/micro microfabrication using the advanced optics based on not only far-field optics but also localized photon energy such as evanescent light, near-field light, and so on. In parallel, he worked at the University of Toronto, Canada in 2011, as a visiting professor. He is a member of the ASPE, euspen, JSPE, JSME, and CIRP and has been awarded various prizes from national academic communities, including three JSPE Best Awards, four JSPE Best Paper Awards, two JSPE Numata Memorial Prize, and has also received various international awards of euspen Recommended Poster (2007), IMEKO Award Certification of Merit for the Paper (2007), ASPEN Best Paper Award (2009), Outstanding Paper Award of ISMQC (2010), and Certificate of Merit for Outstanding Presentation of LEM (2013 and 2015). 44

47 IMCC THE 17TH INTERNATIONAL MANUFACTURING CONFERENCE IN CHINA SPEAKER 18 Plasma-nanomanufacuturing for Damage-free Dry Processing of Difficult-to-machine Materials Prof. Kazuya Yamamura Wide gap semiconductor materials, such as SiC, GaN and diamond, are very promising materials for power device because of their excellent electrical and thermal properties. However, owing to the high hardness and chemical inertness of those materials, and subsurface damage (SSD), which deteriorates the electronic, chemical and mechanical properties of the functional materials, is inevitably formed on the surface in conventional grinding and lapping process. Chemical mechanical polishing (CMP) is widely used in finishing process of SiC, GaN and diamond wafer, but polishing rate of these materials is very low. To resolve these issues, we are now developing plasma-assisted polishing (PAP), which is one of the plasma-nanomanufacturing process proposed by us, to realize highly efficient damage-free finishing of difficult-to-polish materials in dry condition. In the case of PAP, surface of the substrate is modified by irradiation of atmospheric pressure plasma, and modified soft layer is removed by soft abrasive. We apply noble gas (He or Ar) based water vapor plasma for SiC, and apply noble gas based O2 or CF4 plasma for GaN. After the plasma irradiation, surface of the SiC and GaN are oxidized or fluorinated, and hardness of the modified surface is drastically decreased compare to the base material. Softened modified layer is removed by dry polishing using a soft abrasive such as ceria (CeO2) without forming the subsurface damage. In the case of sapphire and diamond, we apply the noble gas based water vapor plasma and oxide plate. Irradiation of water vapor plasma produces OH-terminated surface to both objective substrate and oxide plate surface. Atoms of both substrate and oxide are bonded by dehydration reaction, then the atom of substrate is removed from the surface by motion of the abrasive. In the PAP process, combination of surface modification by plasma irradiation and removal of modified layer by soft abrasive enables us to obtain atomically smooth damage-free surface of hard material efficiently. In this paper, latest research results of PAP for wide gap semiconductor materials are presented, and combined process, which consists of numerically controlled plasma chemical vaporization machining (NC-PCVM) and PAP, for fabrication of high-precision glass lens mold is introduced. Profile: Dr. K. Yamamura started his carrier as a Research Associate at Department of Precision Engineering of Osaka University. He obtained the Degree of Dr.-Eng from Osaka University in His research area is development of unconventional ultraprecision fabrication process and its application. He developed several unique ultra-precision figuring and finishing techniques, which utilize atmospheric pressure plasma. Plasma chemical vaporization machining: PCVM is a noncontact chemical figuring technique for fabrication of ultraprecision optical components and the substrate for electronic device use. Plasma-assisted polishing: PAP is a damage-free finishing technique for wide gap semiconductor materials, such as SiC, GaN, diamond, and sapphire. Some of his research works have been presented at General Assemblies of CIRP. 45

48 ICMTE 2017 THE 6TH INTERNATIONAL CONFERENCE OF MANUFACTURING TECHNOLOGY ENGINEERS SPEAKER 19 Development of Hybrid Micromachining Processes and Machining Tool for Next Generation of Micro-products Prof. Xichun Luo Micro-machining has attracted great attention as micro-components/products such as micro-displays, micro-sensors, micro-batteries, etc. are becoming established in all major areas of our daily life and can already been found across the broad spectrum of application areas especially in sectors such as automotive, aerospace, photonics, renewable energy and medical instruments. These microcomponents/products are usually made of multi-materials (may include hard-to-machine materials) and possess complex shaped micro-structures but demand sub-micron machining accuracy. A number of micro-machining processes is therefore, needed to deliver such components/products. The talk introduces the concept of hybrid micro-machining process which involves integration of various micro-machining processes with the purpose of improving machinability, geometrical accuracy, tool life, surface integrity, machining rate and reducing the process forces. It takes development of hybrid micromilling and laser bugging process for micro-moulds and laser assisted microgrinding process for ceramic denture as studies to demonstrate the effectiveness of hybrid micromachining process in terms of machining performance and productivity. Development a new 6-axis hybrid micro machine tool to implement the hybrid micromachining processes is also introduced. The talk concludes with the future research focus and challenges in the field of hybrid micromachining. Profile: Xichun Luo is a Professor in ultra precision manufacturing and technical director of Centre for Precision Manufacturing at the University of Strathclyde (UK). He is a member of scientific committee of European Society of Precision Engineering & Nanotechnology (euspen) and a member editorial board of Proceedings of Institute of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, Advances in Mechanical Engineering, Journal of Mechanical Science, Nanomanufacturing and Nanometrology. He worked at Cranfield University, Heriot-Watt University and University of Huddersfield before joined Strathclyde in He has strong research interests in ultra precision machining, micromachining and nanomanufacturing, supported by the EPSRC, EU and industries. He has published a book and more than 100 papers in peer-reviewed highly ranked journals and international conferences. He chaired two IEEE international conferences in 2014 and

49 IMCC THE 17TH INTERNATIONAL MANUFACTURING CONFERENCE IN CHINA SPEAKER 20 Globalization with Digitalisation Transformation Strategy of a Chinese Machine Tool Manufacturer Prof. Ö mer Sahin Ganiyusufoglu Machine tools are called as mother machines. Almost for everything in the world a machine tool is needed at its origin for its production. So far, these equipment is essential for any country which is aiming at industrialization. After opening to the world 1976 over the years Chinese Government realized that an own capable machine tool industry is necessary for reducing the dependence from foreign suppliers. Several states owned and private enterprises started to produce machine tools. First priority was to satisfy the demands of local users. As there is a huge market in China these companies became larger without considering export to global markets. On the other hand their technological level was focused to the average of Chinese users thus the competitiveness in global markets was very limited. Targeting leveling up the sophistication of Chinese industry as a whole and also improving the competitive position globally Chinese Government declared the machine tool industry as a key industry in Five-Year-Plans. Shenyang Machine Tool (Group) Co., Ltd. as the leading state owned machine tool manufacturer realized already early 2000 that for fast closing of the gap between China and developed countries a deep transformation of the company from a state owned, plan focused company to a market oriented agile enterprise was necessary. Furthermore the management understood that an own CNC control was vital for implementing own features for the easy use of machines as well as for connecting them with the digital world. In terms of mechanical design a close cooperation with German partners was established. The presentation highlights the transformation procedure of the Chinese company to a global enterprise by utilizing the digitalisation. The experience gained through this procedure should be the guideline for similar Chinese manufacturers on their way to going global and improving the competitive position. Profile: After studying machine tools and manufacturing technology at Technical University of Berlin he worked as scientific collaborator at the Institute for Machine Tools and Manufacturing Technology und Fraunhofer Institute for Production Technology and Design (IPK Berlin), Chair: Prof. Dr. Spur. There he graduated as Dr.-Ing in he moved to industry and worked until 1989 at the German CNC lathe manufacturer Traub as Head of Automation he changed to Yamazaki Mazak Germany and worked until 2005 as Managing Director he changed to German CNC lathe manufacturer Index-Werke and moved to China as General Manager of Index Dalian Machine Tool Ltd., which is a Joint Venture between Dalian Machine Tool Group and Index-Werke Germany he joined Shenyang Machine Tool (Group) Co., Ltd. in Shenyang/China. As personal resident consultant to the Chairman of the Group he supports the chairman and the group management in terms of strategy, globalisation and international cooperations. Dr Ganiyusufoglu is visiting Professor of Tongji University/Mechanical Faculty. He is holding the Award of Dalian, the Rose Prize of the City of Shenyang and the Friendship Award of Liaoning Province. 47

50 ICMTE 2017 THE 6TH INTERNATIONAL CONFERENCE OF MANUFACTURING TECHNOLOGY ENGINEERS SPEAKER 21 The Added Value of Manufacturing in the Context of Industry 4.0 Dominiek Reynaerts The future of manufacturing industry is a major concern in Western economy. On the one hand it is clear that is a key stone of economic welfare but on the other hand the cost of labour is seen as a threat to keep this economic activity intact. During the past years the concept of industry 4.0 has been launched as a major breakthrough to strengthen manufacturing industry. This presentation will focus on the added value of manufacturing in this context, the opportunities Industry 4.0 can create, but also show some misconceptions about the power of Industry 4.0. All this will be illustrated using examples of research results of KU Leuven. Profile: Professor dr. ir. Dominiek Reynaerts was born in Tienen, Belgium, in He received his mechanical engineering degree from KU Leuven (formerly Katholieke Universiteit Leuven), Belgium, in He obtained his Ph.D. degree in mechanical engineering, also from KU Leuven, Belgium, in 1995 and became Assistant Professor at KU Leuven in Since 2007 he is a Full Professor. He was chairman of the Dept. of Mechanical Engineering of KU Leuven from 2008 to His research activities are in machine design and manufacturing with focus on precision engineering, micromechanical systems, and actuators. Major applications of research are in precision instruments or machine tool components and medical instrumentation. He is a member of IEEE, ASME and euspen. He is the author of more than 250 reviewed publications (H-index: 28) and holds 3 granted patents. 48

51 IMCC THE 17TH INTERNATIONAL MANUFACTURING CONFERENCE IN CHINA SPEAKER 22 Experimental and Analytical Force Analysis in Micromilling Prof. Aldo Attanasio Nowadays micro cutting processes are widespread in several advanced industrial field. However, there is a need of increasing the knowledge on the phenomena involved in these manufacturing processes, in order to continuously improve the quality of micro products and reduce the manufacturing costs. As a consequence, several researchers are incentivised to develop researches aimed to study how the process parameters affect the micro cutting processes in terms of surface integrity (i.e., roughness, residual stresses, strain hardening, corrosion, etc.), geometrical accuracy, cutting forces, burr formation, mechanics of material removal, and so on. Cutting forces play a fundamental role in all machining processes at every dimensional scale (macro, meso or micro). Tool wear, tool deflection, process energy are some of the parameters affected by cutting forces. For this reason there is a relevant number of works and research centre working on this topic. Both experimental analysis and analytical model can be found in literature. A review of these work will be presented in this work together with the results of a research conducted at our University aimed to develop a modelling procedure able to forecast the cutting forces generated during micromilling operations of slots. The presented force model is based on specific cutting pressure and actual instantaneous chip section estimated considering the tool run-out contribution. The model parameters were optimised applying the Particles Swarm Optimization on data coming from experimental tests. Titanium alloy (Ti6Al4V) was considered as workpiece material. The comparisons between experimental and analytical data, and the evaluation of the uncertainty showed the good ability of the proposed procedure in predicting forces in channels micromilling. The developed modelling procedure can be used by industries for evaluating several aspects related to the process such as part quality and precision, failure risks, power consumption and cutting costs. Profile: Aldo Attanasio is Associate Professor in Manufacturing at the University of Brescia. He graduated in Mechanical Engineering in 2001 with a final dissertation on Simulation of chip formation in orthogonal cutting operation. Since 2002 to 2014 he was Assistant Professor in Manufacturing at the University of Brescia. Teacher of Technologies and Manufacturing systems, his research activities cover several aspects dealing with manufacturing. In particular, his researches are focused on experimental and simulative analysis of cutting and micro cutting operations. Tool wear, tool life, product accuracy, surface integrity and cutting force analysis are some of the investigated topics. 49

52 ICMTE 2017 THE 6TH INTERNATIONAL CONFERENCE OF MANUFACTURING TECHNOLOGY ENGINEERS SPEAKER 23 Enabling Technologies for Future Grinding Research Prof. Eamonn Ahearne There has been a proliferation in recent years in the range of technologies for supporting research. There is now the potential for a knowledge and innovation explosion through the strategic deployment of these technologies. Research into machining processes is indicative where the complex mechanisms and their cause-effect relationships are being revealed by a range of technologies for in-process sensing, offline and in-laboratory measurement and characterisation. Moreover, there is now the potential for interconnection of data from sensors and instruments to the cloud, enabling advanced data analytics and autonomous learning. On the other hand, the complex mechanisms in grinding processes are also more easily elucidated and simplified by the minimisation of experimental noise in the machine-process. In particular, advances in machine tool technologies reduce inherent sources such as extraneous vibrations, by the design of high stiffness machine tool structures. Machine tool technologies will also, now and in the future, contribute to the scope for process improvement and overall optimisation by providing more control functionalities such as; new control parameters, multi-mode control and intelligent tooling. The present contribution describes some of these developments with due regard to general and specific goals of research and optimisation of grinding processes. It will consider the possibility of setting out a general strategy for expediting process research and development in the context of more rapid technological change and trends such as mass customisation. Profile: Dr Ahearne is a Professor of Manufacturing Engineering from University College Dublin (UCD) in Ireland. Before joining academia, he worked for many years as Research and Development Manager for a tier one global supplier of automotive components, Donnelly Mirrors Ltd. There he developed an abiding interest in the core process technologies of glass grinding and polishing. After joining UCD in 2001, and completing his PhD on a topical grinding process, he expressed this interest through research and publication. His research projects have involved collaborations with high end multinational manufacturing companies with a recent focus on process monitoring and the application of data analytics to advanced machining processes. 50

53 IMCC THE 17TH INTERNATIONAL MANUFACTURING CONFERENCE IN CHINA SPEAKER 24 Prof. Bingheng Lu Profile: Dr. Bing Heng Lu has been the Chief Scientist of Xi'an Ruite Rapid Manufacturing Engineering Research Co., Ltd., since May 1, Dr. Lu serves as Convener of State Council Mechanical Discipline Assessment Group. He is the Chief Scientist of National 973 project. He is a Technology person in charge of Numerical control equipment Major National Project. He serves as Vice President of China Mechanical Engineering Society and China Machinery Manufacturing Technology Association. He is a professor, a teacher of the doctorate students and also head of the faculty of mechanical engineering of Xi'an Jiaotong University. Dr. Lu was a Lecturer and a Vice Professor in Mechanical Engineering of Xi'an Jiaotong University from 1986 to 1988 and 1988 to 1992, respectively. He was the Director of the Advance Production Technology Research Centre of Xi'an Jiaotong University between November 1993 and September He also was the Head of Rapid Prototyping Manufacturing Centre of the Ministry of Education of the PRC since 1993 and the Head of the National Centre for Research on Rapid Manufacturing of the PRC since He served as Director of Education Department for Rapid Prototyping Manufacturing Center. Dr. Lu has been the Chairman of Shaanxi Hengtong Smart Machine Co., Ltd. since December 1, He has been the Chairman of Suzhou Bingchuang Science and Technology Co., Ltd., since January 1, He has been an Independent Director of Shenzhen Tatfook Technology Co., Ltd since August 29, He serves as an Independent Director of Luoyang Bearing Science & Technology Co., Ltd. He has been a Director of Rapid Production National Engineering Research Center since January 1, Dr. Lu has been a Director of Nanjing Zengcai Manufacturing Research Institute Development Co., Ltd. since September 1, He served as a Director at Sinotruk (Hong Kong) Limited from November 06, 2013 to December 11, He served as a Director of Xian Jiaotong University Advanced Manufacturing Technology Research Institute. He is also an academician of the Chinese Academy of Engineering. He has been Independent Non Executive Director of Trauson Holdings Company Limited since June 10, Dr. Lu is an Academician of China Academy of Engineering. He holds Master in Mechanical Engineering from Xian Jiaotong University in 1982 and PhD from Xian Jiaotong University in

54 ICMTE 2017 THE 6TH INTERNATIONAL CONFERENCE OF MANUFACTURING TECHNOLOGY ENGINEERS SPEAKER 25 Added Manufacturing Technologies for High Performance Large Metal Structural Parts on Major Equipments: Challenges, Progress, and Influences Prof. Huaming Wang Profile: Dr. Huaming Wang received his Bachelor degree and Master degree in Mechanism Department at Sichuan Industrial College (now Xihua University) in 1983 and at Xi an Jiaotong University in 1986 respectively. Then he received his doctorate for Mechanism Engineering at China University of Mining and Technology, Beijing in In 1992, Dr. Wang finished his scientific research at the Institute of Metal Research of Chinese Academy of Sciences as a postdoctor and started to work in Beihang University. Currently, he is the professor of School of Materials Science and Engineering, the Director of National Engineering Lab and the Chief Scientist of National Lab of Aeronautic Science and Technology. He was appointed Distinguished Professor of Changjiang Scholars Program and approved by National Science Fund for Distinguished Young Scholars, Chief Scientist of 973 Program. Dr. Wang has won the National Labor Medal, National Aviation Golden Medal and the Ho Leung Ho Lee Award for Science and Technology Progress. He as also won the prize of the Fourth Outstanding Talents of Technology and National Defense Industry. Dr. Wang researches on laser additive manufacturing of large-scale metal components and technology of laser surface engineering. His research results are applied in the development and production of aircrafts, missiles, satellites, aeroengines and other equipment. More than 180 of his essays were included by SCI; four of his technology achievements have been awarded on ministerial-level, and one of them won the 1st prize of National Science and Technology Awards of

55 IMCC THE 17TH INTERNATIONAL MANUFACTURING CONFERENCE IN CHINA SPEAKER 26 Additive Manufacturing Surpass the Traditional Manufacturing Technology Shape & Property Control Prof. Dichen Li The traditional manufacturing technology divides material and manufacturing as two distinct procedure. Additive Manufacturing (AM) broke through the traditional manufacturing technology, by forming in a manner of point by point, and layer by layer towards a 3D subject. As such, the property control at point level leads the way of AM to surpass the traditional technology. However, the shape and the property control at the same time becomes a real challenge as well as the advantages of AM. By taking the polymer material PEEK, super alloy and composite material as representative applications, this report explains how to control the materials shape and property via AM technology, and provides a new solution to expand the benefit of AM technology. Profile: Dr. Dichen Li serves as the Changjiang Distinguished Professor and director of the state key lab for manufacturing system engineering at Xi an Jiaotong University in China. He is secretary-general of branch of additive manufacturing (3D printing) of CMES. His research scope covers additive manufacturing and biofabrication. He has published more than 400 papers and obtained 70 of Chinese invention Patents. He won the National Second Prize for Technological Invention and the National Second Prize for Science and Technology progress. 53

56 ICMTE 2017 THE 6TH INTERNATIONAL CONFERENCE OF MANUFACTURING TECHNOLOGY ENGINEERS SPEAKER 27 When Additive Manufacturing Meets Topology Optimization- Opportunities, Challenging Issues and Perspectives Prof. Xu Guo Topology optimization, which aims at designing innovative and lightweight products by distributing material within a prescribed domain in an optimal way, has reached a certain level of maturity and becomes a well-established research area. Up to now, many methods have been proposed for topology optimization and they have been applied successfully in various application fields. One of the problem associated with topology optimization is, however, that the optimized structures may have very complex geometries that cannot be manufactured easily with use of traditional (subtractive) manufacturing approaches. Usually, post-processing is required to make the designs obtained by topology optimization manufacturable. This, however, will inevitably sacrifice the optimality of the original designs. Recently, with the emergence of a new manufacturing technology- additive manufacturing (AM), the aforementioned difficulty can be overcome to a large extent by manufacturing a structure in an additive way. This new manufacture technique has great potential to enable the realization of optimal structures irrespective of their geometry complexity and take full advantage of topology optimization. In this lecture, I will discuss some opportunities, challenging issues and perspectives when AM meets topology optimization. Profile: Xu Guo is currently a professor and the Dean of the Department of Engineering Mechanics in Dalian University of Technology. His main research interest focuses on computational mechanics, structural optimization and micro/nanomechanics. He has published more than 100 SCI papers on renowned scientific journals such as JMPS, CMAME, IJSS, etc. He is now the general secretary of the Asian Association of Structural and Multidisciplinary Optimization and servers as the associate chief editors/review editors/editorial board members for about 10 international/domestic professional journals. He has received numerous academic awards, including National Natural Science Award, Changjiang Professorship, NSF Outstanding Young Investigator Award, National Award for Youth in Science and Technology, etc. He is also the principal investigator of several National Key Research Programs. 54

57 IMCC THE 17TH INTERNATIONAL MANUFACTURING CONFERENCE IN CHINA SPEAKER 28 Aircraft Structure Technology Based on Additive Manufacturing Prof. Xiangming Wang Profile: Xiangming Wang, Ph.D., Prof. Project chief designer of SADRI Director, Aviation Key Laboratory of Innovative Function-Structure Director, Engineering Research Center for AM of LN Province 55

58 ICMTE 2017 THE 6TH INTERNATIONAL CONFERENCE OF MANUFACTURING TECHNOLOGY ENGINEERS SPEAKER 29 Review on Current Situation and Development Trend of Additive Manufacturing in the Aerospace Science & Technology Industry in China Prof. Lijie Guo Growing development of aerospace products with high performance and light weight has caused an urgent demand for additive manufacturing. In recent years, major aerospace manufacturing enterprises in China have widely cooperated with relevant organizations inside and abroad. They conducted technological research on additive manufacturing equipments, layered planning software, forming technology and experimental verification, etc. Exciting achievements have been acquired, including for example, particular parts produced by additive manufacturing that passed the flight assessment applications. So far, the additive manufacturing industry in China is heading toward a promising direction entailing diverse materials, intelligent equipment, systematic technology and manufacturing, as well as integrated forming of structures and functions. Profile: Lijie Guo, Deputy General Manager & Director of Science and Technology Committee in Shanghai Aerospace Equipments Manufacturer; Chief Technology Expert & Doctorate Supervisor in China Aerospace Science and Technology Corporation, involved in professional aerospace manufacturing equipments and technology research for his entire career. In recent years, he hosted or participated in more than 10 national key research projects, obtained 7 national or provincial-level science & technology related awards, published over 20 professional papers and issued more than 10 patents. 56

59 IMCC THE 17TH INTERNATIONAL MANUFACTURING CONFERENCE IN CHINA Technical Tour 1 Han's Laser Technology Industry Group Co., Ltd 大族激光科技产业集团股份有限公司福永基地 2 BYD Company Limited 比亚迪股份有限公司 3 Pilot Free Trade Zone: Shenzhen Qianhai Shekou Area of China 前海蛇口自贸区 57

60 ICMTE 2017 THE 6TH INTERNATIONAL CONFERENCE OF MANUFACTURING TECHNOLOGY ENGINEERS ACKNOWLEDGEMENTS Our gratitude to the International Academy for Production Engineering (CIRP), the Chinese Mechanical Engineering Society (CMES), the Korean Society of Manufacturing Technology Engineers (KSMTE), the Department of Engineering and Materials Science of National Natural Science Foundation of China(NSFC) for their great supports to the conference. Our sincere thanks to all invited speakers for their excellent academic presentations and to all authors and participants for presenting and sharing their research achievements. Our sincere thanks to Han's Laser Technology Industry Group Co., Ltd, BYD Company Limited and Pilot Free Trade Zone: Shenzhen Qianhai Shekou Area of China for their technical arrangement. Our sincere thanks also to all members of all the Committees for their great efforts. Our thanks to Harbin Institute of Technology, Shenzhen, Beijing Dumi Culture & Arts Development Co., Ltd. in planning, promoting, and organizing the conference. Our sincere thanks to all volunteers during the conference. 58

61 IMCC THE 17TH INTERNATIONAL MANUFACTURING CONFERENCE IN CHINA IMPORTANT INFORMATION CONFERENCE VENUE Shenzhen Kylin Villa NO.4599 Qinyuan Road, Nanshan District, Shenzhen Phone: Fax: ACCOMMODATION Shenzhen Kylin Villa (NO.4599 Qinyuan Road, Nanshan District, Shenzhen) Manager Lai, Xi Li Nan Rong Hotel (NO.2333 Shahe West Road, Nanshan District, Shenzhen) Manager Mu, Vienna Hotel (NO.385 Pingshan 1st Road, Pingshan village, Nanshan District, Shenzhen) Manager Zhou, Jin Bai He Hotel (NO.4038 Xili Lake Road, Nanshan District, Shenzhen) Manager Ji, REGISTRATION Guibinlou Lobby Shenzhen Kylin Villa 09:00-21:30, Thursday, 23 November, :00-12:00, Friday, 24 November, :00-12:00, Saturday, 25 November, 2017 CONFERENCE SECRETARIAT Room: 201 (Guibinlou, Kylin Villa) Time : 08:00-21:00, November 23-25, 2017 Mr. Xiaobin Qu( 屈孝斌 ) : Mrs. Hong Yuan( 袁虹 ) : Mr. Ying Wang( 王颖 ) :

62 ICMTE 2017 THE 6TH INTERNATIONAL CONFERENCE OF MANUFACTURING TECHNOLOGY ENGINEERS SHUTTLE BUS Thursday 23 November Time Start Destination From 09:00 to 21:00, a shuttle bus service is offered each hour from Kylin Villa to each hotel. Kylin Villa( 麒麟山庄 ) Nan Rong Hotel ( 南蓉大酒店 ) Vienna Hotel ( 维也纳酒店 ) Jin Bai He Hotel ( 金百合酒店 ) 14:00 Kylin Villa( 麒麟山庄 ) Han's Laser ( 大族激光福永基地 ) BYD ( 比亚迪股份有限公司 ) Pilot Free Trade Zone ( 前海蛇口自贸区 ) Friday 24 November / Saturday 25 November Time Start Destination 07:20 Nan Rong Hotel( 南蓉大酒店 ) Kylin Villa ( 麒麟山庄 ) 07:40 Vienna Hotel ( 维也纳酒店 ) Kylin Villa ( 麒麟山庄 ) 07:45 Jin Bai He Hotel( 金百合大酒店 ) Kylin Villa ( 麒麟山庄 ) 20:15 Kylin Villa( 麒麟山庄 ) Nan Rong Hotel ( 南蓉大酒店 ) Vienna Hotel ( 维也纳酒店 ) Jin Bai He Hotel ( 金百合酒店 ) 20:45 Kylin Villa( 麒麟山庄 ) Nan Rong Hotel ( 南蓉大酒店 ) Vienna Hotel ( 维也纳酒店 ) Jin Bai He Hotel ( 金百合酒店 ) Sunday 26 November Time Start Destination 08:30 Nan Rong Hotel( 南蓉大酒店 ) 08:40 Vienna Hotel ( 维也纳酒店 ) 08:50 Jin Bai He Hotel( 金百合大酒店 ) 09:00 Kylin Villa( 麒麟山庄 ) Statue Square of Deng Xiaoping ( 邓小平铜像广场 ) 60

63 IMCC THE 17TH INTERNATIONAL MANUFACTURING CONFERENCE IN CHINA CONFERENCE VENUE Shenzhen Kylin Villa nestles at the foot of the Kylin Mountain in Nanshan District, Shenzhen and lying beside the beautiful Swan Lake. It is the designated venue for governmental meetings and accommodations, and is the official reception hotel of the 26th Summer Universiade (Shenzhen) and China (Shenzhen) International Cultural Industry Expo and other significant events. Since its opening up, the Kylin Villa has gained good reputation for its quality service for the clients. SHENZHEN CITY MAP Guibinlou, Kylin Villa Shenzhen Bao an International Airport 3Shenzhen North Railway Station 2Kylin Villa 4Shenzhen Railway Station 61

64 IMCC THE 17TH INTERNATIONAL MANUFACTURING CONFERENCE IN CHINA 63