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For more see the link Prof. Marco Montemurro
Arts et Métiers ParisTech, Institut de Mécaniques de Bordeaux, Talence, France
Biography:
Dr. Montemurro received his Ph.D. in Mechanics in 2012 at the Université Pierre et Marie Curie, Paris VI France for his work entitled “Optimal Design of Advanced Engineering Modular Systems through a New Genetic Approach” wherein he developed a new genetic algorithm for dealing with optimisation problems with “a variable number of design variables”. Formerly (2012-2013) he was full-time assistant professor at the Ecole des Mines de Nancy (Université de Lorraine) and member of theoretical and applied mechanics and energetics laboratory (LEMTA) at GIP-InSIC. From September 2013 he is associate professor at Arts et Métiers ParisTech in Bordeaux. Over the last years, his research activities focused on the development of numerical algorithms for both parametric optimisation (gradient-based and metaheuristics) and shape/topology optimisation (level-set method, B-spline and NURBS-based strategies, etc.), on the development of numerical strategies for the optimum design of advanced engineering modular structures and on the multi-scale modelling of hybrid anisotropic structures. Currently, he is involved in the regional project FUTURPROD (which focuses on the development of analytical/numerical methods and procedures for designing industrial components fabricated by means of additive manufacturing processes) and he is working on the development of homogenisation techniques (both analytical and numerical) for heterogeneous and/or cellular materials. Dr. Montemurro is author or co-author of about 13 Scopus referenced papers. Furthermore, he serves as a peer reviewer for several international journals.
Selected Publications:
M. Montemurro, A. Vincenti, P. Vannucci, A. Makradi. Constrained weight optimization of composite laminated structures. 16th International Conference on Composite Structures, Porto, Portugal, 28-30 June 2011.
M. Montemurro, A. Vincenti, P. Vannucci. A two-level procedure for the global optimum design of composite modular structures - Application to the design of an aircraft wing. Part 1: theoretical formulation. Journal of Optimization Theory and Applications, v. 155 (1), pp. 1-23, 2012.
M. Montemurro, A. Vincenti, P. Vannucci. A two-level procedure for the global optimum design of composite modular structures - Application to the design of an aircraft wing. Part 2: numerical aspects and examples. Journal of Optimization Theory and Applications, v. 155 (1), pp. 24-53, 2012.
M. Montemurro, A. Vincenti, P. Vannucci. Design of elastic properties of laminates with minimum number of plies. Mechanics of Composite Materials, v. 48, pp. 369-390, 2012.
Anita Catapano and Marco Montemurro, “A multi-scale approach for the optimum design of sandwich plates with honeycomb core. Part I: homogenization of core properties”, Composite Structures, Vol. 118, pp 664-676, December 2014
Anita Catapano and Marco Montemurro, “A multi-scale approach for the optimum design of sandwich plates with honeycomb core. Part II: The optimization strategy”, Composite Structures, Vol. 118, pp 677-690, December 2014
M. Montemurro, A. Vincenti, Y. Koutsawa, P. Vannucci. A two-level procedure for the global optimisation of the damping behaviour of composite laminated plates with elastomer patches. Journal of Vibration and Control, v.21 (9), pp. 1778-1800, 2015. M. Montemurro. The polar analysis of the Third-order Shear Deformation Theory of laminates. Composite Structures, v. 131, pp. 775-789, 2015.
M. Montemurro. Corrigendum to" An extension of the polar method to the First-order Shear Deformation Theory of laminates"[Compos. Struct. 127 (2015) 328-339]. Composite Structures, v. 131, pp. 1143-1144, 2015.
M. Montemurro. An extension of the Polar Method to the First-order Shear Deformation Theory of laminates. Composite Structures, v. 127, pp. 328-339, 2015.
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