Skip navigation

Browsing by Author Scopus IDs 57204061377

Jump to: 0-9 A B C D E F G H I J K L M N O P Q R S T U V W X Y Z
or enter first few letters:  
Showing results 1 to 20 of 167  next >
Issue DateTitleAuthor(s)
2018A Bézier extraction based XIGA approach for three-dimensional crack simulationsSingh S.K.; Singh, Indra Vir; Bhardwaj G.; Mishra, B. K.
2019A comparative study and ABAQUS implementation of conventional and localizing gradient enhanced damage modelsSarkar S.; Singh, Indra Vir; Mishra, B. K.; Shedbale A.S.; Poh L.H.
2013A comparison of EFGM and FEM for nonlinear solid mechanics problemsKumar R.; Singh, Indra Vir; Mishra B.K.; Cardoso R.; Yoon J.W.
2016A coupled FE–EFG approach for modelling crack growth in ductile materialsShedbale A.S.; Singh, Indra Vir; Mishra, B. K.
2014A coupled finite element and element-free Galerkin approach for the simulation of stable crack growth in ductile materialsKumar S.; Singh, Indra Vir; Mishra B.K.
2019A homogenized multigrid XFEM to predict the crack growth behavior of ductile material in the presence of microstructural defectsKumar S.; Singh, Indra Vir; Mishra, B. K.; Sharma K.; Khan I.A.
2015A homogenized XFEM approach to simulate fatigue crack growth problemsKumar S.; Singh, Indra Vir; Mishra B.K.
2018A local moving extended phase field method (LMXPFM) for failure analysis of brittle materialsPatil R.U.; Mishra, B. K.; Singh, Indra Vir
2010A modified intrinsic enriched element free Galerkin method for multiple cracks simulationSingh, Indra Vir; Mishra B.K.; Pant M.
2016A Modified Theta Projection Model for Creep Behavior of Metals and AlloysKumar M.; Singh, Indra Vir; Mishra, B. K.; Ahmad S.; Venugopal Rao A.; Kumar V.
2014A multigrid coupled (FE-EFG) approach to simulate fatigue crack growth in heterogeneous materialsKumar S.; Singh, Indra Vir; Mishra B.K.
2019A multiscale framework based on phase field method and XFEM to simulate fracture in highly heterogeneous materialsPatil R.U.; Mishra, B. K.; Singh, Indra Vir
2017A new cohesive crack tip symplectic analytical singular element involving plastic zone length for fatigue crack growth prediction under variable amplitude cyclic loadingHu X.; Bui T.Q.; Wang J.; Yao W.; Ton L.H.T.; Singh, Indra Vir; Tanaka S.
2015A new criterion for modeling multiple discontinuities passing through an element using XIGASingh, Indra Vir; Bhardwaj G.; Mishra, B. K.
2019A new framework based on continuum damage mechanics and XFEM for high cycle fatigue crack growth simulationsPandey V.B.; Singh, Indra Vir; Mishra, B. K.; Ahmad S.; Venugopal Rao A.; Kumar V.
2021A new framework based on XFEM for cracked semipermeable piezoelectric materialJena J.; Singh S.K.; Gaur, Vidit; Singh, Indra Vir; Natarajan S.
2018A new multiscale phase field method to simulate failure in compositesPatil R.U.; Mishra, B. K.; Singh, Indra Vir; Bui T.Q.
2017A new multiscale XFEM for the elastic properties evaluation of heterogeneous materialsPatil R.U.; Mishra, B. K.; Singh, Indra Vir
2021A non-intrusive stochastic phase field method for crack propagation in functionally graded materialsDsouza S.M.; Hirshikesh; Mathew T.V.; Singh, Indra Vir; Natarajan S.
2013A novel enrichment criterion for modeling kinked cracks using element free Galerkin methodPant M.; Singh I.V.; Mishra, B. K.