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Structural and Computational Mechanics Group, Department of Mechanical Engineering
Instituto Superior Técnico (IDMEC), Univeridade de Lisboa, Portugal
and
FANOR, Faculdades Nordeste, Fortaleza, Brazil
Selected Publications (For more see the link, Prof. Jose M. S. Moita):
Moita J. S., Mota Soares C. M., Mota Soares C. A., Buckling behaviour of laminated composite structures using a discrete higher-order displacement model, Composite Structures 35, 1996, 75–92
José Simões Moita, Cristóvão M. Mota Soares and Carlos A. Mota Soares, “Non-linear finite element analysis of thin composite structures”, Composite Structures, Vol. VI, 1997, pp. 808-818
Moita, JSM., Soares, C.M.M., (1999), Buckling and dynamic behaviour of laminated composite structures using a discrete higher order displacement model. Computers and Structures, 73: 407-423
J. S. Moita, J. Infante Barbosa, C. M. M. Soares and C. A. M. Soares, “Sensitivity Analysis and Optimal Design of Geometrically Non-Linear Laminated Plates and Shells,” Computers & Structures, Vol. 76, No. 1-3, 2000, pp. 407-420.
Simoes Moita J M, Mota Soares C M and Mota Soares C A 2002 Geometrically non-linear analysis of composite structures with integrated piezoelectric sensors and actuators Compos. Struct. 57 253–261
J. M. S. Moita, I. F. P. Correia, C. M. Soares, and C. A. M. Soares. Active control of adaptive laminated structures with bonded piezoelectric sensors and actuators. Computers and Structures, 82:1349–1358, 2004.
Jose M. Simoes Moita, Victor M. Franco Correia, Cristovao M. Mota Soares and Carlos A. Mota Soares, “Core and patch position optimizations for vibration control of piezolaminated structures”, 6th World Congress of Structural and Multidisciplinary Optimization, Rio de Janeiro, 30 May-03 June, 2005, Brazil
J. M. S. Moita, C. M. M. Soares, and C. A. M. Soares. Active control of forced vibrations in adaptive structures using a higher order model. Composite Structures, 71:349–355, 2005.
J. M. S. Moita, V. M. F. Correia, P. G. Martins, C. M. M. Soares, and C. A. M. Soares. Optimal design in vibration control of adaptive structures using a simulated annealing algorithm. Composite Structures, 75:79–87, 2006
Simões Moita, J.M., Mota Soares, C.M., Mota Soares, C.A.: Analyses of magneto-electro-elastic plates using a higher order finite element model. Compos. Struct. 91, 421–426 (2009)
J. S. Moita, P. G. Martins, C. M. M. Soares, and C. A. M. Soares. Optimal dynamic control of laminated adaptive structures using a higher order model and a genetic algorithm. Computers and Structures, 86:198–206, 2008.
Moita JS, Araújo AL, Martins PG, Mota Soares CM, Mota Soares CA. Analysis of active-passive plate structures using a simple and efficient finite element model. Mech Adv Mater Struct 2011;18:159–69.
J.S. Moita, C.M. Mota Soares, C.A. Mota Soares, “Active control of forced vibrations in adaptive structures using a higher order model”, Compos Struct, 71 (2011), pp. 349-355
Moita, J.S., Araújo, A.L., Martins, P., Soares, C.M.M.: A finite element model for the analysis of viscoelastic sandwich structures. Comput. Struct. 89(21–22), 1874–1881 (2011)
Moita, J.S., Araújo, A.L., Correia, V.F., Soares, C.M. and Soares, C.M. (2015), “Buckling and geometrically nonlinear analysis of sandwich structures”, J. Mech. Sci., 92, 154-161.
Jose S. Moita, Aurelio L. Araujo, Cristovao M. Moaa Soares, Carlos A. Mota Soares and Jose Herskovits, “Geometrically nonlinear analysis of sandwich structures”, Composite Structures, Vol. 156, pp 135-144, November 2016
J.S. Moita, A.L. Araújo, C.M. Mota Soares, C.A. Mota Soares, J. Herskovits, “Material and geometrically nonlinear analysis of functionally graded material plate-shell structures”, Appl Compos Mater, 23 (4) (2016), pp. 537-554
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