Failure criteria for brittle elastic materials Z Yosibash, A Bussiba, I Gilad International Journal of Fracture 125, 307-333, 2004 | 419 | 2004 |
Reliable simulations of the human proximal femur by high-order finite element analysis validated by experimental observations Z Yosibash, N Trabelsi, C Milgrom Journal of biomechanics 40 (16), 3688-3699, 2007 | 245 | 2007 |
A failure criterion for brittle elastic materials under mixed-mode loading Z Yosibash, E Priel, D Leguillon International journal of fracture 141, 291-312, 2006 | 202 | 2006 |
A CT-based high-order finite element analysis of the human proximal femur compared to in-vitro experiments Z Yosibash, R Padan, L Joskowicz, C Milgrom | 199 | 2007 |
Crack onset at a V-notch. Influence of the notch tip radius D Leguillon, Z Yosibash International journal of fracture 122, 1-21, 2003 | 185 | 2003 |
The finite cell method for bone simulations: verification and validation M Ruess, D Tal, N Trabelsi, Z Yosibash, E Rank Biomechanics and modeling in mechanobiology 11, 425-437, 2012 | 171 | 2012 |
Patient-specific finite element analysis of the human femur—a double-blinded biomechanical validation N Trabelsi, Z Yosibash, C Wutte, P Augat, S Eberle Journal of biomechanics 44 (9), 1666-1672, 2011 | 171 | 2011 |
Validation of subject-specific automated p-FE analysis of the proximal femur N Trabelsi, Z Yosibash, C Milgrom Journal of biomechanics 42 (3), 234-241, 2009 | 120 | 2009 |
Singularities in elliptic boundary value problems and elasticity and their connection with failure initiation Z Yosibash Springer, 2012 | 105 | 2012 |
Numerical analysis of singularities in two‐dimensions part 1: Computation of eigenpairs Z Yosibash, B Szabó International Journal for Numerical Methods in Engineering 38 (12), 2055-2082, 1995 | 105 | 1995 |
The finite cell method for linear thermoelasticity N Zander, S Kollmannsberger, M Ruess, Z Yosibash, E Rank Computers & Mathematics with Applications 64 (11), 3527-3541, 2012 | 99 | 2012 |
Numerical analysis of singularities in two dimensions. Part 2: computation of generalized flux/stress intensity factors BA Szabó, Z Yosibash International Journal for Numerical Methods in Engineering 39 (3), 409-434, 1996 | 99 | 1996 |
Predicting the yield of the proximal femur using high-order finite-element analysis with inhomogeneous orthotropic material properties Z Yosibash, D Tal, N Trabelsi Philosophical Transactions of the Royal Society A: Mathematical, Physical …, 2010 | 98 | 2010 |
Pathological fracture risk assessment in patients with femoral metastases using CT-based finite element methods. A retrospective clinical study A Sternheim, O Giladi, Y Gortzak, M Drexler, M Salai, N Trabelsi, ... Bone 110, 215-220, 2018 | 89 | 2018 |
On volumetric locking‐free behaviour of p‐version finite elements under finite deformations U Heisserer, S Hartmann, A Düster, Z Yosibash Communications in numerical methods in engineering 24 (11), 1019-1032, 2008 | 89 | 2008 |
Patient-specific finite-element analyses of the proximal femur with orthotropic material properties validated by experiments N Trabelsi, Z Yosibash | 88 | 2011 |
A quasi-dual function method for extracting edge stress intensity functions M Costabel, M Dauge, Z Yosibash SIAM Journal on Mathematical Analysis 35 (5), 1177-1202, 2004 | 78 | 2004 |
Predicting the stiffness and strength of human femurs with real metastatic tumors Z Yosibash, RP Mayo, G Dahan, N Trabelsi, G Amir, C Milgrom Bone 69, 180-190, 2014 | 75 | 2014 |
Failure initiation at a blunt V-notch tip under mixed mode loading E Priel, Z Yosibash, D Leguillon International Journal of fracture 149, 143-173, 2008 | 74 | 2008 |
Plates and shells: asymptotic expansions and hierarchic models M Dauge, E Faou, Z Yosibash Encyclopedia of computational mechanics, 2004 | 66 | 2004 |