Lian, H., Pierre, K., & Bordas, S. (2016). Shape Optimization Directly from CAD: an Isogeometric Boundary Element Approach Using T-splines. University of Luxembourg.
Rappel, H., Beex, L., Hale, J., & Bordas, S. (2016). Bayesian inference for material parameter identification. Luxembourg, Luxembourg: University of Luxembourg.
Peng, X., Atroshchenko, E., Kerfriden, P., & Bordas, S. (2016). Isogeometric boundary element methods for linear elastic fracture mechanics. Cardiff University.
Bordas, S. (2016). 2015 Lab report - Legato report 001. UL.
Bourantas, G., & Bordas, S. (2016). Discretization Correction Particle Strength Exchange (DC PSE) method for Linear Elasticity. University of Luxembourg.
Peng, X., Atroshchenko, E., Kerfriden, P., & Bordas, S. (2015). Isogeometric boundary element methods for three dimensional fatigue crack growth. Cardiff University.
Bordas, S. (2015). Computational Mechanics Lab Report 2013-2014 (1). University of Luxembourg.
Lee, C.-K., Bordas, S., & Kerfriden, P. (2015). Gradient Smoothing in Finite Elasticity: near-incompressibility. Cardiff, UK: Cardiff University.
Lian, H., Bordas, S., & Kerfriden, P. (2014). Shape optimisation directly from CAD: an isogeometric boundary element approach. Cardiff, UK: Cardiff University.
Sautot, C., Bordas, S. (Other coll.), & Hale, J. (Other coll.). (2014). Extension of 2D FEniCS implementation of Cosserat non-local elasticity to the 3D case.
Akbari Rahimabadi, A., Kerfriden, P., & Bordas, S. (2014). Error controlled adaptive multiscale method for fracture in polycrystalline materials. Cardiff, UK: Cardiff University.
Peng, X., Atroshchenko, E., Kulasegaram, S., & Bordas, S. (2014). A two-dimensional isogeometric boundary element method for linear elastic fracture. Cardiff University.
Lian, H., Bordas, S., & Kerfriden, P. (2014). Shape sensitivity analysis and optimization using isogeomgetric boundary element methods in two-dimensional linear elasticity. Cardiff, UK: Cardiff University.
Lee, C.-K., Mihai, L. A., Kerfriden, P., & Bordas, S. (2014). Strain smoothing technique in 3D for nearly incompressible neo-Hookean material. Cardiff School of Engineering, Cardiff University.
Sutula, D., & Bordas, S. (2013). Global energy minimization for multiple fracture growth. Cardiff University.
Lee, C.-K., Mihai, A., & Bordas, S. (2013). The Node-Based Smoothed Finite Element Method in nonlinear elasticity. Cardiff, UK: School of Engineering, Cardiff University.
Hoang, K. C., Kerfriden, P., & Bordas, S. (2013). Space-time goal-oriented reduced basis approximation for linear wave equation. Cardiff University.
Lee, C.-K., Mihai, L. A., & Bordas, S. (2013). The Node-Based Smoothed Finite Element Method in nonlinear elasticity. Cardiff University, Cardiff School of Engineering.
Sutula, D., & Bordas, S. (2013). Global energy minimization for all crack increment directions in the framework of XFEM. NA.
Lee, C.-K., & Bordas, S. (2012). The Simple Shear and Simple Tension Problems in Linear and Nonlinear Elasticity. Cardiff, UK: School of Engineering, Cardiff University.
Peng, X., Atroshchenko, E., Kulasegaram, S., & Bordas, S. (n.d.). A two-dimensional isogeometric boundary element method for linear elastic fracture: a path towards damage tolerance analysis without meshing. Cardiff University.
Peng, X., Kulasegaram, S., Bordas, S., & Shengchuan, W. (n.d.). An extended finite element method with smooth nodal stress. Cardiff, UK: Cardiff University.