Related people (22)
Cyril Cayron
1992-1995 Engineering School. Ecole des Mines de Nancy. 1994-1995 Master's degree in Materials Science (rank = 1st) 1995-1996 Military Service 1996-2000 PhD at EPFL-CIME. Precipitation in 6xxx alloys and composites. 2000-2014 Researcher, Engineer and Group leader on materials for new energies at CEA-Grenoble, France. 2012 Habilitation to supervise researches (HDR) 2014-now Senior Scientist at EPFL-LMTM Creator of the computer programs GenOVa and ARPGE (in Python). I currently work on crystallographic models of martensitic transformations and deformation twinning.
Roland Logé
Roland Logé is an associate professor at EPFL, with a primary affiliation to the Materials Institute, and a secondary affiliation to the Microengineering Institute. After graduating in 1994 at UCL (Belgium) in Materials Engineering, he earned a Master of Science in Mechanics in 1995, at UCSB Santa Barbara (USA). He received his PhD at Mines Paristech-CEMEF (France) in 1999, where he specialized in metal forming and associated microstructure evolutions. After a postdoc at Cornell University (USA) between 1999 and 2001, he entered CNRS in France. In 2008, he was awarded the ALCAN prize from the French Academy of Sciences, together with Yvan Chastel. In 2009 he became head of the Metallurgy-Structure-Rheology research group at CEMEF. In 2011, he launched a “Groupement de Recherche” (GDR), funded by CNRS, networking most of the researchers in France involved in recrystallization and grain growth. In 2013, he became Research Director at CNRS. In March 2014 he joined EPFL as the head of the Laboratory of Thermomechanical Metallurgy.
Daniele Mari
Daniele Mari was born in Milan in 1961, After a scientific high school degree obatained in Italy Daniele Mari joins EPFL in 1980 and graduates in Physics in 1986. In 1991, he obtains the Ph.D. from the same institution working in the field of metal-ceramic composites. From 1992 to 1993 he continues his research as a post-doc at the Massachusetts Institute of Technology with a work on shape-memory alloys. In 1993, he joins the company Amysa Yverdon SA (Switzerland) as director of Research and Development and creates ACME (Advanced Composite & Microwave Engineering) with activities in the fields of the electromagnetic heating and materials science. In parallel with his industrial activities, D. Mari has supervised different research projects in materials science at the EPFL. In 2004 he joins the Laboratoire de Physique de la Matière Complexe to develop mechanical spectroscopy in the field of hard materials and steels. He is appointed MER in 2012. Since then he is responsible for the Physics Laboratories (for student training) and Auditoriums. Since 2013 D. Mari is the Deputy Director of the Physics School.
Michel Rappaz
After a PhD in solid state physics (1978) at the Ecole Polytechnique Fédérale de Lausanne (EPFL) and a post-doc at Oak Ridge National Laboratory, Michel Rappaz joined the Institute of Materials of EPFL in 1981. After two years in an engineering company, he came back to EPFL in 1984 where he was nominated Adjunct Professor in 1990 and Full Professor in 2003. He retired from EPFL in 2015 and is now Emeritus Professor and independent consultant for several industries and research centres. His main interests are in phase transformations and solidification, in particular the coupling of macroscopic aspects of heat and mass transfer with microscopic aspects of microstructure and defect formation. Among his diverse achievements, one can mention in particular the development of cellular automata for grain structure predictions and of granular models for hot tearing formation in castings, the coupling of Finite Element method with microscopic models of nucleation and growth, the application of the phase field method to the understanding of various microstructures, the discovery of quasicrystal mediated-nucleation in alloys, and many other studies both fundamental at the microstructure-defect level and more applied at the level of processes. Some of the software developments have been commercialized by a spin-off company founded by his group in 1991 (Calcom SA), now part of the French company ESI. Michel Rappaz initiated in 1992 an annual postgraduate course on solidification which has been attended by more than 900 participants from all over the world. He is presently collaborating closely with another spin-off company started from his group, Novamet SàrL. Michel Rappaz has received several awards, in particular the Mathewson co-author award (1994) and author award (1997) of the American Mineral, Metals and Materials Society (TMS), the Koerber foundation award jointly with Profs Y. Bréchet and M. Asbby (1996), the Sainte-Claire Deville Medal (1996) and the Grand Medal (2011) from the French Materials Society, the Bruce Chalmers Award of TMS (2002), the Mc Donald Memorial Lecture award of Canada (2005), the FEMS European Materials Gold Medal (2013) and the Brimacombe Prize of TMS (2015). He is a highly-cited author of ISI, a fellow of ASM, IOP and TMS, and has co-authored more than 200 publications and two books.
Yves Bellouard
Dr. Yves Bellouard is Associate Professor in Microengineering at Ecole Polytechnique Fédérale de Lausanne (EPFL) in Switzerland, where he heads the Galatea lab and the Richemont Chair in micromanufacturing.   He received a BS in Theoretical Physics and a MS in Applied Physics from Université Pierre et Marie Curie in Paris, France in 1994-1995 and a PhD in Microengineering from Ecole Polytechnique Fédérale de Lausanne (EPFL) in Lausanne, Switzerland in 2000. For his PhD work, he received the Omega Scientific prize (2001) for outstanding contribution in the field of microengineering for his work on Shape Memory Alloys. Before joining EPFL in 2015, he was Associate Professor at Eindhoven University of Technologies (TU/e) in the Netherlands and prior to that, Research Scientist at Rensselaer Polytechnic Institute (RPI) in Troy, New York for about four years where he started working on femtosecond laser processing of glass materials.  From 2010 until 2013, Yves Bellouard initiated and coordinated the Femtoprint project, a European research initiative aiming at investigating a table-top printer for microsystems ('3D printing of microsystems'). In 2013, he received a prestigious ERC Starting Grant (Consolidator-2012) from the European Research Council and a JSPS Fellowship from the Japan Society for the Promotion of Science.  His current research interests are on new paradigms for system integration at the microscale and in particular laser-based methods to tailor material properties for achieving higher level of integration in microsystems, like for instance integrating optics, mechanics and fluidics in a single monolith. These approaches open new opportunities for direct-write methods of microsystems (3D printing).  Personal website
Wilfried Kurz
Wilfried Kurz is Professor Emeritus of Materials Science at "Ecole Polytechnique Fédérale de Lausanne, EPFL" (the Swiss Federal Institute of Technology Lausanne). He received his diploma and doctor’s degree from University of Leoben, Austria. In 1964 he joined the staff of the Battelle Geneva Research Laboratories, which he left in 1971 as head of the physical metallurgy group. In the same year he was appointed at the Swiss Federal Institute of Technology, where, until his retirement in 2003, he directed the Laboratory of Physical Metallurgy as well as of the Laser Materials Processing Centre. After participating in 1972/73 in the foundation of the curriculum in Materials Science and Engineering at EPFL he was twice Head of Department. Under others he served as president of SVMT (Swiss Assoc. for Materials Science & Technology) and of FEMS, the Federation of European Materials Societies. Author of four books, he published some 250 papers and patents, principally on the science and technology of solidification microstructures and processes. Professor Kurz is corresponding member of the Austrian Academy of Sciences, highly cited researcher and the recipient of awards from Eisenhuette Oesterreich; The Minerals, Metals & Materials Society (TMS, USA); ASM International, USA; Société Française de Métallurgie et de Matériaux; Deutsche Gesellschaft fuer Materialkunde; Institute of Materials, Minerals and Mining, London; Associatione Italiana di Metallurgia; People’s Republic of China; Federation of European Materials Societies; and Iron and Steel Institute of Japan. Selected publications of recent years: “Fundamentals of Solidification”, W. Kurz, DJ Fisher, Trans Tech Publ., Switzerland,, 4th revised edition 1998, 305 p “Solidification”, H Müller-Krumbhaar, W Kurz, E Brener, in: Phase Transformations in Materials, G Kostorz, ed., Wiley-VCH, 2001, p.81-170 “Single-crystal laser deposition of superalloys: Processing-microstructure maps”, M Gäumann, C Bezencon, P Canalis, W Kurz, Acta Mater., 49 (2001) 1051-1062 “Solidification microstructure – processing maps: Theory and application”, W Kurz, Adv. Eng. Mater., 3 (2001) 443-452 “Dendritic growth”, W Kurz, R Trivedi, in: Proc. MC Flemings Symposium on Solidification and Materials Processing, eds R Abbaschian, H Brody, A Mortensen, TMS, Warrendale, PA, 2001, p. 87-99 “Massive Transformation and Absolute Stability“, M. Lima, W. Kurz, Metall. Mater. Trans. 33A (2002) 2337-2345 “Introduction to Materials Science”, JP Mercier, G Zambelli, W Kurz, Elsevier, Paris, 2002, 461 p. “Epitaxial deposition of MCrAlY coatings on a Ni-base superalloy by laser cladding”, C Bezencon, A Schnell, W Kurz, Scripta Mater. 49 (2003) 705-709 “Peritectic Coupled Growth”, S Dobler, TS Lo, M Plapp, A Karma, W Kurz, Acta Mater., 52 (2004) 2795-2808 “Solidification cracking of superalloy single- and bi-crystals”, N Wang, S Mokadem, M Rappaz, W Kurz, Acta Mater., 52 (2004) 3173-3182 “Laser Repair of Superalloy Single Crystals with Varying Substrate Orientations”, S Mokadem, C Bezencon, A Hauert, A Jacot, W Kurz, Metall. Mater. Trans. 38A (2007) 1500-1510 “Plane Front Solidification”, W. Kurz, ASM Handbook Vol. 15: Casting, 2008, 293-298 “Solidification microstructures and solid-state parallels: Recent developments, future directions”, M Asta, C Beckermann, A Karma, W Kurz, R Napolitano , M Plapp, G Purdy, M Rappaz, R Trivedi, Acta Mater., 57 (2009) 941–971 “Solute Trapping-Free Massive Transformation at Absolute Stability”, A. Jacot, M. Sumida, W. Kurz, Acta Mater. 59 (2011) 1716-1724

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