The research scope has been designed to solve current and future problems linked to advanced multi-material design and optimization strategies. "Centrale Nantes and ESI are joining forces to propose solutions that will raise the competitiveness of the French manufacturing industry and the country's higher education alike," says Dr Vincent Chaillou, COO, ESI Group.
ESI Group will be financing this 6-year collaborative research project, focusing on Model Reduction, Advanced Welding Simulation and Thermoplastic Welding.
Pr. Francisco Chinesta, Professor of Computational Mechanics at Centrale Nantes (France) and titular of the EADS Foundation Chair for the past four years, will be appointed "Centrale Nantes - ESI Chair". Most specifically, he brings years of expertise in Model Reduction Strategies and advanced modeling and simulation of materials and processes. Dr Jean-Louis Duval, Platform Product Director, ESI Group, will oversee Model Reduction research operations on ESI's side. Dr Yannick Vincent, Welding and Assembly Solution Product Manager, ESI Group, will coordinate the research on numerical simulation of welding processes, while Dr Laurent Dufort, Composites Manufacturing CoE Manager, ESI Group, and Dr Christophe Binetruy, from Centrale Nantes' Materials, Processes and Composites department, will jointly lead the research on thermoplastics.
For Model Reduction Strategies, both organizations will work towards the development of virtual charts for non-linear models involving multiple parameters, by using the Proper Generalized Decomposition (PGD method). These virtual charts represent complex mathematical relationships at a glance, e.g. in the form of tables that can be easily visualized. They will be integrated in ESI software to deliver real time simulation results, optimization, and reverse analysis, with the aim to predict even faster how design and manufacturing changes (geometries, materials, processes) will affect a finished product's performance.
For Advanced Welding Simulation, research will investigate Friction Steer Welding (FSW) processes, which enable the joining of dissimilar materials (such as steel and aluminum) in solid state. Another research objective will be to improve modeling techniques for additive manufacturing, as part of the welding process.
Today, out-of-autoclave systems based on thermoplastic materials are seen as a tangible solution to decrease process cost in the aeronautic and automotive industries. A research team will investigate this area, by focusing on the advanced simulation of automatic tape placement.
For students at Centrale Nantes, this initiative provides an opportunity to conduct teaching and research on topics that are directly in line with current and future industrial projects. It will finance four PhD theses around the above research projects, while the Research Institute of Civil Engineering and Mechanics of Centrale Nantes will strengthen its team with an additional research position in the field of Computational Mechanics.
For more information about Centrale Nantes, please visit http://www.ec-nantes.fr For more news or information about ESI's Welding solutions, please visit www.esi-group.com/...
About Centrale Nantes
Centrale Nantes is a member of the Écoles Centrales Group (Lille, Lyon, Marseille, Nantes and Paris) and trains Centrale engineers for industry. Founded in 1919, Centrale Nantes today has 2050 students on its 16-hectare campus: 1340 engineering students, 200 engineering apprentices (ITII), 240 PhD students and 270 Master students. Centrale Nantes trains engineering, master and PhD students at the forefront of scientific and technological development and introduces them to the best managerial practices. For further information: www.ec-nantes.fr