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个人简介
Dr. Cante is an Associate Professor at UPC. He is also a senior researcher at CIMNE in Barcelona. He has degrees on Mechanical Engineering and Mathematics. His areas of expertise are in algorithmic and mathematical developments in Computational Mechanics, with more than 25 years of experience in the field. His main international reputation is related with the field of numerical simulation of industrial processes, powder compaction, forming and metal cutting processes, in which he has been working for more than 15 years, closely related with industry. He has published a total number of 115 scientific contributions from which 35 are published in indexed journals. He has co-directed 7 PhD theses in the last 10 years and has participated in a large number of Spanish and European research projects. He developed a pre-competitive commercial code, called POWCOM, for the numerical simulation of cold-compaction parts. The code, based on PFEM, helps the end-user to define the kinematics of the punches and predicts the final properties of the part. The program is used by AMES S.A, a well-known Spanish company of sintering parts for automotive industry. He also developed –together with Lulea University of Technology - a numerical code to predict the movement of granular flow inside silos and milling machines, proper of industries related with the production of pellets for the steel industry. In 2012, he shifted the focus of his research to multiscale modeling of composite material and topological optimization techniques, and become member, in 2013, of the research team of the ERC-Advanced Grant project: COMP-DES-MAT, Advanced tools for computational design of engineering materials, led by Prof. J. Oliver. Since then, he has been working on computational metamaterials design for different applications. He co-advised three PhD theses on numerical tools for computational design of acoustic metamaterials, mechanical metamaterials and optimization techniques. During that period, six papers were produced and published in journals of the first quartile, with a high impact index. Four of them were focused on the development of a computational multiscale framework for resonant acoustic metamaterials. One of these papers was more experimentally focused, since it describes an experimental assessment of a 3D-printed prototype of an acoustic metamaterial. The other papers were focused more on the design of innovative techniques for the topology optimization of the microstructures required to optimize the effective parameters of the unit cells used to define any multiscale metamaterial.
In the last two years, his research has focused mainly on the design of new metamaterials but this time applied to a cutting-edge technology such as wireless power transfer. The research has focused on new metamaterial design that can circumvent the main drawback in this technology, such as the loss of efficiency with distance. Early studies show that there is a clear parallelism between the concepts of resonance used to cancel noise waves and the concepts of magnetic resonance to control an electromagnetic wave. Currently, the research group is preparing a publication in this direction, in which these effects are explained but from the point of view of the continuous media.
研究兴趣
论文共 36 篇作者统计合作学者相似作者
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ADVANCES IN COMPUTATIONAL PLASTICITY: A BOOK IN HONOUR OF D. ROGER J. OWEN (2018): 289-308
Computational mechanicsno. 6 (2017): 639-655
Advanced modeling and simulation in engineering sciencesno. 1 (2016)
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作者统计
#Papers: 36
#Citation: 1095
H-Index: 21
G-Index: 33
Sociability: 4
Diversity: 0
Activity: 0
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