ROLE OF LARGE SCALE RESEARCH INFRASTRUCTURES IN SUPPORTING PRE-NORMATIVE RESEARCH AND INNOVATION EUROPEAN FORUM FOR SCIENCE AND INDUSTRY JRC Side-event to the Standardization Summit Construction Standards 3 June 2015, Riga Fabio Taucer International, Interinstitutional and Stakeholder Relations Joint Research Centre
Overview 1. Introduction 2. Transnational Access Projects in the Construction Sector 3. Opening Access to JRC Research Infrastructures 4. Conclusions 2
Introduction What is the role of large scale testing in knowledge transfer from new ideas to market? How research infrastructures contribute to the standardisation process? What the EU has done to promote the use of research infrastructures in the Construction Sector? What the JRC will be doing to enable access to its research infrastructures? 3
Large Scale Testing Enable the validation of a concept at full scale Evaluates the interaction of all elements at global level, including, where relevant, non-structural components Allows the calibration of numerical models for parametric analysis and full validation of a class of structures Is carried out in large research infrastructures and ran by highly specialised staff High investment costs 4
Large scale testing Knowledge transfer RESEARCH INNOVATION Large Scale Testing MARKET STANDARDS 5
Push effect on Standards Innovation RESEARCH INNOVATION Component Testing Large Scale Testing MARKET New Products Technologies Processes Design Methods Pre-Normative Design Guidelines Validation STANDARDS 6
Pull effect of Standards Competitiveness Economy Feasibility Sustainability Concept 1 Concept 2 Concept 3 Concept 4 Large Scale Testing MARKET STANDARDS Performance based 7
Pull effect of Standards Harmonization, Simplification Assessment and Validation NDP1 NDP2 NDP3 NDP4 Large Scale Testing EUROCODES Re-assessment, further needs for harmonization and simplification 8
Large Scale Testing and RIs in the Construction Sector European Union 7 th Framework Programme Capacities Research Infrastructures 4 years + 5 months (March 1 st 2009 Jul. 31 th 2013) 23 European partners Largest Earthquake Engineering labs in Europe 10.672.583 total budget 8.700.000 Contribution of European Community 9
SERIES Partners 11 countries 23 partners Coordinator: Prof. Michael Fardis / University of Patras (GR) Large Research Infrastructure Partner 10
Transnational Access 7 world-class research infrastructures offer free-of-charge access and support for seismic testing (full infrastructural, logistical, technological and scientific support): ELSA, JRC/Ispra (IT) EU s largest reaction TAMARIS, CEA/Saclay (FR) EU s largest 6DoF Shake table BLADE, Un. of Bristol (UK) 6 DoF earthquake Shaking table NESDE, LNEC/Lisboa (PT) Large 3DoF Shaking table TREES Lab, EUCENTRE/Pavia (IT) EU s largest uniaxial Shaking Table and Bearings Tester IFSTTAR, Nantes (FR) Centrifuge facility Univ. of Cambridge (UK) Centrifuge facility 11
Transnational Access Laboratory # of Projects # of Users Access Days ELSA / JRC 3 46 24 TAMARIS / CEA 3 18 137 BLADE / UNIVBRIS 7 42 77 NESDE / LNEC 4 12 100 TREES / EUCENTRE 3 22 77 IFSTTAR 3 22 64 UCAM 4 24 66 Total 27 186 545 Transparent, fair and impartial peer-review and evaluation of proposals 12
Brochure of projects: http://www.series.upatras.gr/node/743 13
Summary of TA (ST and RW) Retrofitting technologies: strengthening Building typologies: RC w/shear walls, URM and timber New designs: re-centring Innovation: thermal, acoustic Reduction of economic losses Importance of existing RC and URM structures in the EU Prefabricated structures: Timber Energy efficiency and comfort 14
Summary of TA (centrifuges and shear stacks) Broad range of topics Underground boxed structures Shallow foundations, retaining walls, pipes Soil reinforcement, soil-structure interactions Request for the use of centrifuges combined with shakers Interaction between centrifuges and ST shear stacks 15
DUAREM Project (SERIES TA Project) Full-scale experimental validation of a dual eccentrically braced frame with removable links
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Ultimate Limit State Test 18
Ultimate Limit State Test 19
Seismic link replacement
Economic solution Feasibility Safety issues Performance Objectives - Damage only in seismic links - Self-Centring after link replacement Large Scale Testing DEMONSTRATION TEST MARKET Component Testing Eurocode 3 Eurocode 4 Reference Standard Design Guidelines Parametric Analysis 21
Opening up Access to JRC RIs JRC successfully delivered Transnational Access to its RIs under DG RTD Capacities Programme (FP5, FP7) JRC has made high investments in its Research Infrastructures Some of these facilities are unique or complementary to other RIs in Europe High demand from European researchers These facilities are strategic for EU research Make these facilities accessible to EU Users in 2016 22
Modes of Access Relevance-driven (physical) Dependent on scientific relevance and socio-economic issues at EU level excellence, originality, technical and ethical issues, and feasibility. Calls for proposal in strategic areas, transparent selection process Proposals evaluated by an independent panel of experts Use of Institutional resources: staff and consumables Market-driven (physical) Web-based access (digital) 23
JRC Science Hub Calls for Proposals and the whole selection process will be announced in a dedicated page at the JRC Science Hub https://ec.europa.eu/jrc/ 24
Conclusions Research Infrastructures play an important role in knowledge transfer from research to industry by a: Push effect of innovation on Standards through Pre-Normative Research Pull effect of competitiveness from Standards through demonstration projects assessing performance and feasibility of new concepts Pull effect of harmonisation from Standards on the calibration of design methods 25
Conclusions Access of users to Large Research Infrastructures: Has enabled to support the innovation, competitiveness and standardisation process in the EU Should continue to be promoted, in particular for further harmonization and simplification of the Eurocodes 26
Thank you 27