Department of Engineering Design and Mathematics
University of the West of England, Bristol, UK
Also:
University of Aveiro, Campus Santiago, Aveiro, Portugal
Selected Publications (For more see the link Prof. Rui P.R. Cardoso):
Cardoso, R.P.R. (1998), ``Desenvolvimento de modelos para regeneracËaÄo adaptativa e contacto em processos de enformacËaÄo plaÂstica'', tese de mestrado, Universidade do Porto.
R.M. Natal Jorge, Rui P.R. Cardoso and J.M.A. Cesar de Sa, “A quadrilateral mesh generator for adaptive procedures in bulk forming processes”, Engineering Compuations, Vol. 17, No. 8, pp 950-969, December 2000
R.P.R. Cardoso, J.W. Yoon, J.J. Grácio, F. Barlat, J.M.A. César de Sá. Development of a one-point quadrature shell element for nonlinear applications with contact and anisotropy. Comput. Methods Appl. Mech. Eng., 191, 5177–5206, 2002
R.P.R. Cardoso (2002). Development of one point quadrature shell elements with anisotropic material models for sheet metal forming analysis. PhD thesis, University of Aveiro, Portugal.
Valente, R.A.F., Jorge, R.M.N., Cardoso, R.P.R., et al.: On the use of an enhanced transverse shear strain shell element for problems involving large rotations. Comput. mech. 30, 286–296 (2003)
R.A. Fontes Valente, M.P.L. Parente, R.M. Natal Jorge, R.P.R. Cardoso and R.J. Alves de Sousa, “Fully integrated EAS-based solid-shell finite elements in implicit sheet metal forming simulations”, CP778 Vol. A, Numisheet 2005, edited by L.M. Smith, F. Pourboghrat, J.-W. Yoon and T.B. Stoughton, American Institute of Physics, August 2005
Rui P. R. Cardoso and Jeong-Whan Yoon, “One point quadrature shell elements for sheet metal forming analysis”, Archives of Computational Methods in Engineering, Vol. 12, No. 1, pp 3-66, March 2005
Alves de Sousa, R. J., Cardoso, R. P. R., Fontes, R. A., Yoon, J. W., Gracio, J. J., Natal Jorge, R. M. (2005) A new one-point quadrature enhanced assumed strain (EAS) solid-shell element with multiple integration points along thickness: Part I — Geometrically linear applications. Int. J. Numer. Methods Eng. 62: pp. 952-977
Cardoso RPR, Yoon JW (2005) One point quadrature shell element with through-thickness stretch. Comput Methods Appl Mech Eng 194:1161–1199
Alves de Sousa, R. J., Cardoso, R. P. R., Fontes Valente, R. A., Yoon, J. W., Gracio, J. J., Natal Jorge, R. M. (2006) A new one-point quadrature enhanced assumed strain (EAS) solid-shell element with multiple integration points along thickness: Part II — Nonlinear applications. Int. J. Numer. Methods Eng. 67: pp. 160-188
Cardoso, R. P. R., Yoon, J. W., and Valente, R. A. F. (2006). “A new approach to reduce membrane and transverse shear locking for one-point quadrature shell elements: Linear formulation.” International Journal for Numerical Methods in Engineering, Vol. 66, No. 2, pp. 214–249
Parente, M.P.L., Fontes Valente, R.A., Natal Jorge, R.M., Cardoso, R.P.R., Alves de Sousa, R.J. (2006). Sheet metal forming simulation using EAS solid-shell finite elements. Finite Elements in Analysis and Design, vol. 42, no. 13, p. 1137- 1149
R.J. Alves de Sousa, J.W. Yoon, R.P.R. Cardoso, R.A. Fontes Valente, J.J. Grácio. On the use of a reduced enhanced solid–shell (RESS) element for sheet forming simulations. Int. J. Plasticity, 23, 490–515, 2007
Cardoso R., Yoon J., Valente R.: Enhanced one-point quadrature shell element for nonlinear applications. Int. J. Numer. Methods Eng. 69, 627–663 (2007)
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