FACULTY OF List of s Offered for University of Malaya Student Exchange (UMSEP) for the 2015/2016 Academic Session BACHELOR OF MANUFACTURING & COMPUTER AIDED DESIGN s Offered No 1 KCEC1106 STATICS 2 KCEC1108 COMPUTER PROGRAMMING 3 KCEC2105 COMPUTER AIDED DESIGN 4 KCEC3109 TECHNOLOGY CNC/CAM 5 KCEC3172 INDUSTRIAL PROJECT 6 KCEC3213 COMPUTATIONAL FLUID DYNAMICS 7 KCEC4102 AUTOMATION AND ROBOTICS 8 KCEC4105 MOLD DESIGN AND FABRICATION 9 KCEC4111 DESIGNING FOR MANUFACTURING 10 KCEC4282 FINAL YEAR PROJECT 2 / FAILURE ANALYSIS OF 11 KCEC4305 MATERIALS IN DESIGN 12 KCEP1108 FLUID MECHANICS 13 KCEP2112 DESIGN FOR MACHINE ELEMENT 14 KCEP2113 BASIC PRODUCTION PROCESS 15 KCEP2201 MECHANICS OF MATERIALS 16 KCEP3106 PRINCIPLES OF METAL FORMING 17 KCEP3111 INTRODUCTION TO INDUSTRIAL 18 KCEP3112 INSTRUMENTATION AND MEASUREMENT 19 KCEP3172 INDUSTRIAL PROJECT 20 KCEP4114 MANUFACTURING PLANNNG AND CONTOL This course will provide students with a complete description of the subject area of manufacturing planning and control, and will be supplemented with the traditional ways to look at different planning processes, methods and theories in terms of their characteristics and applicability, 1
21 KCEP4282 FINAL YEAR PROJECT 2 / 22 KCEP4303 TOTAL QUALITY MANAGEMENT s Offered both on a conceptual and methodological level and with respect to the planning environment in which they will be applied. The course will start with an introduction to the manufacturing company and environment; follow by approaches in manufacturing planning and control. Then, the course will offer the fundamental on manufacturing planning and control performance, basic data for manufacturing operations, planning parameters and variables, forecasting, customer order management, sales and operations planning (SOP) and master production scheduling (MPS). Finally, this course will cover the detailed planning and execution, including discussion on state-of-the-art approach in contrast to traditional application Every final year undergraduate student undertakes a project that carries a weight of 8 credit-hours. This is stretched to one academic session (2 consecutive semesters). The grade to each student is awarded on the basis of one s performance after the completion of the project and submission of the report to the examiners and supervisor This course is offered to make the students aware about the significance of quality and reliability in manufacturing and design engineering, and to provide them with the quantitative analyses and qualitative approaches pertinent to process quality. The main contents of the course are: importance, benefit and scope of TQM/QM; Evolution-QC, TQC, QA, TQM; fundamentals of statistics; problem analysis; QM tools & techniques QC7, QM7 and advanced tools/techniques- Control charts for variables and attributes; acceptance sampling; Continuous improvement techniques; QM systems and ISO 9000/14000 series; six-sigma strategy; basic reliability; TQM implementation technique, 7-P Practices; change of organizational culture towards quality 2
23 KCEP4307 SURFACE 24 KCEP4311 MECHANICAL BEHAVIOR OF MATERIALS s Offered 25 KCEC1201 DYNAMICS 26 KCEC2116 PRODUCT DESIGN 27 KCEC2117 CONTROL 28 KCEC3101 COMPUTER AIDED ERGONOMICS 29 KCEC3107 FINITE ELEMENT ANALYSIS 30 KCEC3108 COMPUTER INTEGRATED MANUFACTURING 31 KCEC3171 INDUSTRIAL PROJECT I & II 2 / 32 KCEC3172 INDUSTRIAL PROJECT 33 KCEC4114 REVERSE 34 KCEC4281 FINAL YEAR PROJECT 4 / 35 KCEC4282 FINAL YEAR PROJECT 2 / 36 KCEC4307 MANUFACTURING STRATEGY 37 KCEP1110 INTRODUCTION TO ELECTRIC 38 KCEP1111 THERMODINAMIC 39 KCEP2105 NUMERICAL METHOD AND STATISTICS 40 KCEP3107 INDUSTRIAL ERGONOMICS 41 KCEP3111 INTRODUCTION TO INDUSTRIAL 42 KCEP3171 INDUSTRIAL PROJECT I & II 2 / 43 KCEP3172 INDUSTRIAL PROJECT 44 KCEP4101 ADVANCED MANUFACTURING PROCESSES The concept of surface engineering technology will be introduced. Techniques of modifying engineering surfaces will be incorporated in the teaching. The method of various surface characterizations will be introduced. Various solutions for surface engineering will be explained to the students Mechanical properties and their dependence on microstructures are examined for a wide range of materials, including metals, polymers and ceramics. Continuum deformation concepts, basic elastic, viscoelastic and plastic constitutive behaviours are developed and related to their microstructures. Yield criteria for ductile and brittle materials are introduced. The concept of non-traditional material processing technology will be introduced encompasses 3
s Offered 45 KCEP4102 MACHINE TOOL 46 KCEP4282 FINAL YEAR PROJECT 2 / 47 KCEP4302 TOOL 4 / 48 KCEP4307 SURFACE 49 KCEP4312 COMPOSITE MATERIALS TECHNOLOGY thermal-based methods, chemical reaction processes and erosion processes. The method of reverse engineering including digitizing processes through optical scanning and laser scanning will be introduced. Various rapid prototyping techniques will be explained to the students Elements of Conventional Machine Tools, Machine Tool Drives, Speed and Feed regulation, Design of Machine Tool Structures, Dynamic of Machine Tools, Accuracy in Machine Tools, Automation in Machine Tools, NC and CNC Machine Tools Every final year undergraduate student undertakes a project that carries a weight of 8 credit-hours. This is stretched to one academic session (2 consecutive semesters). The grade to each student is awarded on the basis of one s performance after the completion of the project and submission of the report to the examiners and supervisor Perspective and introduction to Tool Engineering- Basics of Metal cutting-deign of cutting tools-jigs and fixtures-basics of metals forming processes- Design of Bulk forming and sheet metal working tools-fundamentals of polymers and composites- Design of polymer processing tools-application of IT software in the design process of mold and dies The concept of surface engineering technology will be introduced. Techniques of modifying engineering surfaces will be incorporated in the teaching. The method of various surface characterizations will be introduced. Various solutions for surface engineering will be explained to the students Essential concepts and practices of engineering materials begin the course including conventional and advanced materials along with atomic structure and defect theories. These are followed by the evaluation of stress /strain relationships along with linear plasticity. The mechanics of 4
s Offered composite materials are introduced and the role of each constituents making up the composite structure are explained. Subsequently, Metal Matrix Composites (MMCs), Polymer Matrix Composites (PMCs) and Ceramic Matrix Composites (CMCs) will be explored in production techniques. Finally, the comparison of the different types of composite materials and their applications will be explored in composite technology Notes: Penawaran tahun 1 berdasarkan kemasukan pelajar sesi 2015/2016. Tetapi Penawaran untuk subjek tahun 2 dan 3 tidak pasti akan dibuka kerana tiada pengambilan pelajar untuk kedua-dua Program ini pada sesi 2013/2014 dan 2014/2015. Penawaran hanya dibuka sekiranya terdapat rayuan daripada pelajar yang mengulang kursus. 5