Yang, Zhenjun; Zhang, Xin; Wang, Zhenyu; Li, Q. M. A cohesive-frictional coupled interface model for mesoscale simulation of steel fibre-reinforced concrete. (English) Zbl 07801051 Int. J. Numer. Methods Eng. 125, No. 2, Article ID e7370, 32 p. (2024). MSC: 74S05 74R10 74E30 PDFBibTeX XMLCite \textit{Z. Yang} et al., Int. J. Numer. Methods Eng. 125, No. 2, Article ID e7370, 32 p. (2024; Zbl 07801051) Full Text: DOI
Zhang, Jing; Liu, Guanting A Dugdale-Barenblatt model for elliptical orifice problem with asymmetric cracks in one-dimensional orthorhombic quasicrystals. (English) Zbl 07773093 AMM, Appl. Math. Mech., Engl. Ed. 44, No. 9, 1533-1546 (2023). MSC: 74A99 PDFBibTeX XMLCite \textit{J. Zhang} and \textit{G. Liu}, AMM, Appl. Math. Mech., Engl. Ed. 44, No. 9, 1533--1546 (2023; Zbl 07773093) Full Text: DOI
Chen, Lin; de Borst, René Analysis of progressive fracture in fluid-saturated porous medium using splines. (English) Zbl 07769206 Int. J. Numer. Methods Eng. 124, No. 1, 264-281 (2023). MSC: 74R99 74F10 74S22 PDFBibTeX XMLCite \textit{L. Chen} and \textit{R. de Borst}, Int. J. Numer. Methods Eng. 124, No. 1, 264--281 (2023; Zbl 07769206) Full Text: DOI OA License
Kondys, B.; Bobiński, J.; Marzec, I. Non-uniqueness of fracture parameter choice in simulations of concrete cracking at mesoscale level. (English) Zbl 07767409 Arch. Mech. 75, No. 3, 365-396 (2023). MSC: 74R10 74S05 74B05 74K10 74-05 PDFBibTeX XMLCite \textit{B. Kondys} et al., Arch. Mech. 75, No. 3, 365--396 (2023; Zbl 07767409) Full Text: DOI
Correas, A. Chao; Sapora, A.; Reinoso, J.; Corrado, M.; Cornetti, P. Coupled versus energetic nonlocal failure criteria: a case study on the crack onset from circular holes under biaxial loadings. (English) Zbl 1527.74066 Eur. J. Mech., A, Solids 101, Article ID 105037, 20 p. (2023). MSC: 74R10 74G70 74G65 74B05 PDFBibTeX XMLCite \textit{A. C. Correas} et al., Eur. J. Mech., A, Solids 101, Article ID 105037, 20 p. (2023; Zbl 1527.74066) Full Text: DOI
Iranmanesh, Mohammad Ali; Pak, Ali Three-dimensional numerical simulation of hydraulically driven cohesive fracture propagation in deformable reservoir rock using enriched EFG method. (English) Zbl 1514.86002 Comput. Geosci. 27, No. 2, 317-335 (2023). MSC: 86-08 86-10 86A05 74R99 PDFBibTeX XMLCite \textit{M. A. Iranmanesh} and \textit{A. Pak}, Comput. Geosci. 27, No. 2, 317--335 (2023; Zbl 1514.86002) Full Text: DOI
Roth, Stephan; Kiefer, Björn Employing phase-field descriptions of cohesive zone placements in cohesive fracture simulations. (English) Zbl 07767223 Int. J. Numer. Methods Eng. 123, No. 5, 1191-1227 (2022). MSC: 74R10 74S05 PDFBibTeX XMLCite \textit{S. Roth} and \textit{B. Kiefer}, Int. J. Numer. Methods Eng. 123, No. 5, 1191--1227 (2022; Zbl 07767223) Full Text: DOI OA License
Wu, Jian-Ying; Yao, Jing-Ru A model scaling approach for fracture and size effect simulations in solids: cohesive zone, smeared crack band and phase-field models. (English) Zbl 1507.74040 Comput. Methods Appl. Mech. Eng. 400, Article ID 115519, 31 p. (2022). MSC: 74A45 74R10 PDFBibTeX XMLCite \textit{J.-Y. Wu} and \textit{J.-R. Yao}, Comput. Methods Appl. Mech. Eng. 400, Article ID 115519, 31 p. (2022; Zbl 1507.74040) Full Text: DOI
Selivanov, Mikhailo; Nazarenko, Lidiia; Altenbach, Holm Modeling the slow crack growth of an edge crack within the cohesive zone model approach. (English) Zbl 1496.74013 Giorgio, Ivan (ed.) et al., Theoretical analyses, computations, and experiments of multiscale materials. A tribute to Francesco dell’Isola. Cham: Springer. Adv. Struct. Mater. 175, 505-535 (2022). MSC: 74-10 74R10 PDFBibTeX XMLCite \textit{M. Selivanov} et al., Adv. Struct. Mater. 175, 505--535 (2022; Zbl 1496.74013) Full Text: DOI
Selivanov, M. F.; Protsan, V. V. Solving the problem on the subcritical state of an edge crack within the cohesive zone model approach. (Ukrainian. English summary) Zbl 1499.74018 Dopov. Nats. Akad. Nauk Ukr., Mat. Pryr. Tekh. Nauky 2022, No. 1, 39-47 (2022). MSC: 74A45 74R10 PDFBibTeX XMLCite \textit{M. F. Selivanov} and \textit{V. V. Protsan}, Dopov. Nats. Akad. Nauk Ukr., Mat. Pryr. Tekh. Nauky 2022, No. 1, 39--47 (2022; Zbl 1499.74018) Full Text: DOI
Nagashima, Toshio; Wang, Chenyu XFEM analyses using two-dimensional quadrilateral elements enriched with only the heaviside step function. (English) Zbl 07542602 Int. J. Comput. Methods 19, No. 2, Article ID 2150063, 26 p. (2022). MSC: 74-XX 65-XX PDFBibTeX XMLCite \textit{T. Nagashima} and \textit{C. Wang}, Int. J. Comput. Methods 19, No. 2, Article ID 2150063, 26 p. (2022; Zbl 07542602) Full Text: DOI
Marulli, M. R.; Valverde-González, A.; Quintanas-Corominas, A.; Paggi, M.; Reinoso, J. A combined phase-field and cohesive zone model approach for crack propagation in layered structures made of nonlinear rubber-like materials. (English) Zbl 1507.74401 Comput. Methods Appl. Mech. Eng. 395, Article ID 115007, 37 p. (2022). MSC: 74R10 PDFBibTeX XMLCite \textit{M. R. Marulli} et al., Comput. Methods Appl. Mech. Eng. 395, Article ID 115007, 37 p. (2022; Zbl 1507.74401) Full Text: DOI
Dan, Saikat; Tarafder, Preetam; Ghosh, Somnath Adaptive wavelet-enhanced cohesive zone phase-field FE model for crack evolution in piezoelectric composites. (English) Zbl 1507.74142 Comput. Methods Appl. Mech. Eng. 392, Article ID 114636, 30 p. (2022). MSC: 74F15 74E30 PDFBibTeX XMLCite \textit{S. Dan} et al., Comput. Methods Appl. Mech. Eng. 392, Article ID 114636, 30 p. (2022; Zbl 1507.74142) Full Text: DOI
Chen, Lin; de Borst, René Phase-field modelling of cohesive fracture. (English) Zbl 1481.74051 Eur. J. Mech., A, Solids 90, Article ID 104343, 13 p. (2021). MSC: 74A45 74G65 PDFBibTeX XMLCite \textit{L. Chen} and \textit{R. de Borst}, Eur. J. Mech., A, Solids 90, Article ID 104343, 13 p. (2021; Zbl 1481.74051) Full Text: DOI
Sabbagh Yazdi, Saeed Reza; Amiri, Tayebeh An efficient automatic adaptive algorithm for cohesive crack propagation modeling of concrete structures using matrix-free unstructured Galerkin finite volume method. (English) Zbl 1524.74441 Comput. Math. Appl. 97, 237-250 (2021). MSC: 74S05 65N30 74R10 74S10 65N15 PDFBibTeX XMLCite \textit{S. R. Sabbagh Yazdi} and \textit{T. Amiri}, Comput. Math. Appl. 97, 237--250 (2021; Zbl 1524.74441) Full Text: DOI
Wang, Zhongbao; Zhong, Xiangli; Jiang, Limei; Qi, Fugang; Ouyang, Xiaoping; Wang, Jinbin; Liao, Bin; Luo, Jun Effect of interfacial delamination on coating crack in thick diamond-like carbon coatings under indentation. (English) Zbl 07679155 Acta Mech. Sin. 36, No. 2, 524-535 (2020). MSC: 74-XX 76-XX PDFBibTeX XMLCite \textit{Z. Wang} et al., Acta Mech. Sin. 36, No. 2, 524--535 (2020; Zbl 07679155) Full Text: DOI
Wang, Tian; Wang, Jian; Zhang, Peng An improved support domain model of smoothed particle hydrodynamics method to simulate crack propagation in materials. (English) Zbl 07342674 Int. J. Comput. Methods 17, No. 10, Article ID 1950081, 28 p. (2020). MSC: 74-XX 76-XX PDFBibTeX XMLCite \textit{T. Wang} et al., Int. J. Comput. Methods 17, No. 10, Article ID 1950081, 28 p. (2020; Zbl 07342674) Full Text: DOI
Giovanardi, Bianca; Serebrinsky, Santiago; Radovitzky, Raúl A fully-coupled computational framework for large-scale simulation of fluid-driven fracture propagation on parallel computers. (English) Zbl 1506.74106 Comput. Methods Appl. Mech. Eng. 372, Article ID 113365, 25 p. (2020). MSC: 74F10 65D99 74S05 65M60 65Y05 PDFBibTeX XMLCite \textit{B. Giovanardi} et al., Comput. Methods Appl. Mech. Eng. 372, Article ID 113365, 25 p. (2020; Zbl 1506.74106) Full Text: DOI arXiv
Kamins’kyĭ, A. O.; Dudyk, M. V.; Reshitnyk, Yu. V. About the cohesive pre-fracture zone at the tip of a crack outcoming from the corner point of the broken interface of materials. (Ukrainian. English summary) Zbl 1449.74175 Dopov. Nats. Akad. Nauk Ukr., Mat. Pryr. Tekh. Nauky 2020, No. 4, 34-42 (2020). MSC: 74R10 74A10 PDFBibTeX XMLCite \textit{A. O. Kamins'kyĭ} et al., Dopov. Nats. Akad. Nauk Ukr., Mat. Pryr. Tekh. Nauky 2020, No. 4, 34--42 (2020; Zbl 1449.74175) Full Text: DOI
Selivanov, M. F.; Protsan, V. V. The impact of neglecting the smooth crack closure condition when determining the critical load. (Ukrainian. English summary) Zbl 1449.74021 Dopov. Nats. Akad. Nauk Ukr., Mat. Pryr. Tekh. Nauky 2020, No. 3, 28-35 (2020). MSC: 74A45 74R10 PDFBibTeX XMLCite \textit{M. F. Selivanov} and \textit{V. V. Protsan}, Dopov. Nats. Akad. Nauk Ukr., Mat. Pryr. Tekh. Nauky 2020, No. 3, 28--35 (2020; Zbl 1449.74021) Full Text: DOI
Nguyen, Thanh-Tung; Waldmann, Danièle; Bui, Tinh Quoc Role of interfacial transition zone in phase field modeling of fracture in layered heterogeneous structures. (English) Zbl 1452.74111 J. Comput. Phys. 386, 585-610 (2019). MSC: 74S05 74R10 74E30 65N30 PDFBibTeX XMLCite \textit{T.-T. Nguyen} et al., J. Comput. Phys. 386, 585--610 (2019; Zbl 1452.74111) Full Text: DOI Link
Kamins’kyi, A. O.; Dudyk, M. V.; Reshitnyk, Yu. V. The cohesive model of a pre-fracture zone near the tip of the crack starting from the corner point of the broken interface. (Ukrainian, English) Zbl 1463.74025 Mat. Metody Fiz.-Mekh. Polya 62, No. 4, 112-123 (2019). Reviewer: V. V. Shegai (Tashkent) MSC: 74A45 74R20 PDFBibTeX XMLCite \textit{A. O. Kamins'kyi} et al., Mat. Metody Fiz.-Mekh. Polya 62, No. 4, 112--123 (2019; Zbl 1463.74025)
Liu, W. H.; Zhang, L. W. A novel XFEM cohesive fracture framework for modeling nonlocal slip in randomly discrete fiber reinforced cementitious composites. (English) Zbl 1441.74209 Comput. Methods Appl. Mech. Eng. 355, 1026-1061 (2019). MSC: 74R10 74S05 65N30 74E30 PDFBibTeX XMLCite \textit{W. H. Liu} and \textit{L. W. Zhang}, Comput. Methods Appl. Mech. Eng. 355, 1026--1061 (2019; Zbl 1441.74209) Full Text: DOI
Selivanov, Mikhailo F. Subcritical and critical states of a crack with failure zones. (English) Zbl 1481.74675 Appl. Math. Modelling 72, 104-128 (2019). MSC: 74R10 PDFBibTeX XMLCite \textit{M. F. Selivanov}, Appl. Math. Modelling 72, 104--128 (2019; Zbl 1481.74675) Full Text: DOI
Selivanov, M. F.; Chornoivan, Yu. O. Application of the complex cohesive zone model to the edge mixed-mode crack problem for orthotropic media. (Ukrainian. English summary) Zbl 1438.74015 Dopov. Nats. Akad. Nauk Ukr., Mat. Pryr. Tekh. Nauky 2019, No. 11, 31-40 (2019). MSC: 74A45 74R10 PDFBibTeX XMLCite \textit{M. F. Selivanov} and \textit{Yu. O. Chornoivan}, Dopov. Nats. Akad. Nauk Ukr., Mat. Pryr. Tekh. Nauky 2019, No. 11, 31--40 (2019; Zbl 1438.74015) Full Text: DOI
Selivanov, M. F. An edge crack with cohesive zone in the orthotropic body. (Ukrainian. English summary) Zbl 1438.74014 Dopov. Nats. Akad. Nauk Ukr., Mat. Pryr. Tekh. Nauky 2019, No. 6, 25-34 (2019). MSC: 74A45 74R10 PDFBibTeX XMLCite \textit{M. F. Selivanov}, Dopov. Nats. Akad. Nauk Ukr., Mat. Pryr. Tekh. Nauky 2019, No. 6, 25--34 (2019; Zbl 1438.74014) Full Text: DOI
Brisola, Gabriela M. S.; Palermo, Leandro jun.; Almeida, Luiz C. Analysis of the crack propagation in fiber-reinforced concrete specimens using the BEM. (English) Zbl 1418.74038 Cheng, Alexander H.-D. (ed.) et al., Boundary elements and other mesh reduction methods XXXXI. Selected papers based on the presentations at the 41st international conference (BEM/MRM), New Forest, UK, September 11–13, 2018. Southampton: WIT Press. WIT Trans. Eng. Sci. 122, 39-49 (2019). MSC: 74S15 65R20 74K10 74R10 PDFBibTeX XMLCite \textit{G. M. S. Brisola} et al., WIT Trans. Eng. Sci. 122, 39--49 (2019; Zbl 1418.74038) Full Text: Link
Selivanov, M. F. Solving a problem on an edge crack with cohesive zone by the regularization of a singular integral equation. (Ukrainian. English summary) Zbl 1424.74006 Dopov. Nats. Akad. Nauk Ukr., Mat. Pryr. Tekh. Nauky 2019, No. 5, 34-43 (2019). MSC: 74A45 74R10 PDFBibTeX XMLCite \textit{M. F. Selivanov}, Dopov. Nats. Akad. Nauk Ukr., Mat. Pryr. Tekh. Nauky 2019, No. 5, 34--43 (2019; Zbl 1424.74006) Full Text: DOI
Selivanov, M. F. An edge crack with cohesive zone. (Ukrainian. English summary) Zbl 1424.74044 Dopov. Nats. Akad. Nauk Ukr., Mat. Pryr. Tekh. Nauky 2019, No. 3, 46-54 (2019). MSC: 74R10 74K20 PDFBibTeX XMLCite \textit{M. F. Selivanov}, Dopov. Nats. Akad. Nauk Ukr., Mat. Pryr. Tekh. Nauky 2019, No. 3, 46--54 (2019; Zbl 1424.74044) Full Text: DOI
Cao, Toan D.; Hussain, Fazle; Schrefler, Bernhard A. Porous media fracturing dynamics: stepwise crack advancement and fluid pressure oscillations. (English) Zbl 1441.74063 J. Mech. Phys. Solids 111, 113-133 (2018). MSC: 74F10 74R10 PDFBibTeX XMLCite \textit{T. D. Cao} et al., J. Mech. Phys. Solids 111, 113--133 (2018; Zbl 1441.74063) Full Text: DOI
Goncalves, P. C.; Palermo, Leandro jun.; Proença Analysis of two cohesive zone models for crack propagation in Notched beams using the BEM. (English) Zbl 1416.74097 Cheng, Alexander H.-D. (ed.) et al., Boundary elements and other mesh reduction methods XXXX. Selected papers based on the presentations at the 40th international conference (BEM/MRM), New Forest, UK, September 12–14 , 2017. Southampton: WIT Press. 97-106 (2018). MSC: 74S15 74R05 74B10 PDFBibTeX XMLCite \textit{P. C. Goncalves} et al., in: Boundary elements and other mesh reduction methods XXXX. Selected papers based on the presentations at the 40th international conference (BEM/MRM), New Forest, UK, September 12--14 , 2017. Southampton: WIT Press. 97--106 (2018; Zbl 1416.74097) Full Text: DOI
Zhong, Hong; Li, Hongjun; Ooi, Ean Tat; Song, Chongmin Hydraulic fracture at the dam-foundation interface using the scaled boundary finite element method coupled with the cohesive crack model. (English) Zbl 1403.74060 Eng. Anal. Bound. Elem. 88, 41-53 (2018). MSC: 74L10 74S15 65N38 74R10 PDFBibTeX XMLCite \textit{H. Zhong} et al., Eng. Anal. Bound. Elem. 88, 41--53 (2018; Zbl 1403.74060) Full Text: DOI
Li, X.; Chen, J. An extended cohesive damage model for simulating arbitrary damage propagation in engineering materials. (English) Zbl 1439.74334 Comput. Methods Appl. Mech. Eng. 315, 744-759 (2017). MSC: 74R05 74-10 PDFBibTeX XMLCite \textit{X. Li} and \textit{J. Chen}, Comput. Methods Appl. Mech. Eng. 315, 744--759 (2017; Zbl 1439.74334) Full Text: DOI Link
Hu, Xiaofei; Bui, Tinh Quoc; Wang, Jining; Yao, Weian; Ton, Lan Hoang That; Singh, Indra Vir; Tanaka, Satoyuki A new cohesive crack tip symplectic analytical singular element involving plastic zone length for fatigue crack growth prediction under variable amplitude cyclic loading. (English) Zbl 1406.74589 Eur. J. Mech., A, Solids 65, 79-90 (2017). MSC: 74R10 74S05 PDFBibTeX XMLCite \textit{X. Hu} et al., Eur. J. Mech., A, Solids 65, 79--90 (2017; Zbl 1406.74589) Full Text: DOI
Nguyen, Thanh-Tung; Réthoré, Julien; Yvonnet, Julien; Baietto, Marie-Christine Multi-phase-field modeling of anisotropic crack propagation for polycrystalline materials. (English) Zbl 1386.74128 Comput. Mech. 60, No. 2, 289-314 (2017). MSC: 74R10 74E15 PDFBibTeX XMLCite \textit{T.-T. Nguyen} et al., Comput. Mech. 60, No. 2, 289--314 (2017; Zbl 1386.74128) Full Text: DOI HAL
Kaminsky, A. A.; Selivanov, M. F. Slow growth of a crack with contact zone. (Ukrainian. English summary) Zbl 1374.74002 Dopov. Nats. Akad. Nauk Ukr., Mat. Pryr. Tekh. Nauky 2017, No. 1, 38-43 (2017). MSC: 74A10 74R10 PDFBibTeX XMLCite \textit{A. A. Kaminsky} and \textit{M. F. Selivanov}, Dopov. Nats. Akad. Nauk Ukr., Mat. Pryr. Tekh. Nauky 2017, No. 1, 38--43 (2017; Zbl 1374.74002) Full Text: DOI
Almi, Stefano Energy release rate and quasi-static evolution via vanishing viscosity in a fracture model depending on the crack opening. (English) Zbl 1373.49011 ESAIM, Control Optim. Calc. Var. 23, No. 3, 791-826 (2017). Reviewer: Alain Brillard (Riedisheim) MSC: 49J45 74R10 49Q10 35J50 35Q74 74G65 35D40 PDFBibTeX XMLCite \textit{S. Almi}, ESAIM, Control Optim. Calc. Var. 23, No. 3, 791--826 (2017; Zbl 1373.49011) Full Text: DOI Link
Lu, Mengkai; Zhang, Hongwu; Zheng, Yonggang; Zhang, Liang A multiscale finite element method with embedded strong discontinuity model for the simulation of cohesive cracks in solids. (English) Zbl 1439.74363 Comput. Methods Appl. Mech. Eng. 311, 576-598 (2016). MSC: 74R10 74S05 65N30 PDFBibTeX XMLCite \textit{M. Lu} et al., Comput. Methods Appl. Mech. Eng. 311, 576--598 (2016; Zbl 1439.74363) Full Text: DOI
Cordeiro, Sérgio Gustavo Ferreira; Leonel, Edson Denner Cohesive crack propagation modelling in wood structures using BEM and the Tangent Operator Technique. (English) Zbl 1403.74157 Eng. Anal. Bound. Elem. 64, 111-121 (2016). MSC: 74S15 65N38 74R10 PDFBibTeX XMLCite \textit{S. G. F. Cordeiro} and \textit{E. D. Leonel}, Eng. Anal. Bound. Elem. 64, 111--121 (2016; Zbl 1403.74157) Full Text: DOI
Selivanov, M. F.; Chornoivan, Yu. O.; Vovkodav, O. V. Determination of crack face displacement for two parallel cohesive cracks. (Ukrainian. English summary) Zbl 1374.74111 Visn., Ser. Fiz.-Mat. Nauky, Kyïv. Univ. Im. Tarasa Shevchenka 2016, No. 3, 39-42 (2016). MSC: 74R10 74A45 74K20 PDFBibTeX XMLCite \textit{M. F. Selivanov} et al., Visn., Ser. Fiz.-Mat. Nauky, Kyïv. Univ. Im. Tarasa Shevchenka 2016, No. 3, 39--42 (2016; Zbl 1374.74111)
Bak, Brian L. V.; Turon, Albert; Lindgaard, Esben; Lund, Erik A simulation method for high-cycle fatigue-driven delamination using a cohesive zone model. (English) Zbl 1352.74277 Int. J. Numer. Methods Eng. 106, No. 3, 163-191 (2016). MSC: 74R10 PDFBibTeX XMLCite \textit{B. L. V. Bak} et al., Int. J. Numer. Methods Eng. 106, No. 3, 163--191 (2016; Zbl 1352.74277) Full Text: DOI
Fan, Houfu; Li, Shaofan Multiscale cohesive zone modeling of crack propagations in polycrystalline solids. (English) Zbl 1525.74178 GAMM-Mitt. 38, No. 2, 268-284 (2015). MSC: 74R10 74E15 PDFBibTeX XMLCite \textit{H. Fan} and \textit{S. Li}, GAMM-Mitt. 38, No. 2, 268--284 (2015; Zbl 1525.74178) Full Text: DOI
Pagani, Mara; Perego, Umberto Explicit dynamics simulation of blade cutting of thin elastoplastic shells using “directional” cohesive elements in solid-shell finite element models. (English) Zbl 1423.74688 Comput. Methods Appl. Mech. Eng. 285, 515-541 (2015). MSC: 74M20 74S05 74C05 74K25 PDFBibTeX XMLCite \textit{M. Pagani} and \textit{U. Perego}, Comput. Methods Appl. Mech. Eng. 285, 515--541 (2015; Zbl 1423.74688) Full Text: DOI
Khoei, A. R.; Hirmand, M.; Vahab, M.; Bazargan, M. An enriched FEM technique for modeling hydraulically driven cohesive fracture propagation in impermeable media with frictional natural faults: numerical and experimental investigations. (English) Zbl 1352.74185 Int. J. Numer. Methods Eng. 104, No. 6, 439-468 (2015). MSC: 74L10 74S05 74M10 74-05 65N30 74R10 PDFBibTeX XMLCite \textit{A. R. Khoei} et al., Int. J. Numer. Methods Eng. 104, No. 6, 439--468 (2015; Zbl 1352.74185) Full Text: DOI
Liu, Jinxiang; Zhang, Huayang; Li, Jun Study on I-II mixed mode crack growth using extended finite element method. (Chinese. English summary) Zbl 1349.74310 Trans. Beijing Inst. Technol. 35, No. 9, 881-885 (2015). MSC: 74R10 74S05 PDFBibTeX XMLCite \textit{J. Liu} et al., Trans. Beijing Inst. Technol. 35, No. 9, 881--885 (2015; Zbl 1349.74310) Full Text: DOI
Kamins’kyĭ, A. A.; Selivanov, M. F. Modelling the slow cohesive crack growth in viscoelastic solids. (Ukrainian. English summary) Zbl 1340.74089 Dopov. Nats. Akad. Nauk Ukr., Mat. Pryr. Tekh. Nauky 2015, No. 8, 43-50 (2015). MSC: 74R20 74H35 74E10 PDFBibTeX XMLCite \textit{A. A. Kamins'kyĭ} and \textit{M. F. Selivanov}, Dopov. Nats. Akad. Nauk Ukr., Mat. Pryr. Tekh. Nauky 2015, No. 8, 43--50 (2015; Zbl 1340.74089) Full Text: DOI
Selivanov, M. F. A model of crack with cohesive zone for a mixed mode of fracture. (Ukrainian. English summary) Zbl 1340.74085 Dopov. Nats. Akad. Nauk Ukr., Mat. Pryr. Tekh. Nauky 2015, No. 7, 62-69 (2015). MSC: 74R10 74A45 74K20 PDFBibTeX XMLCite \textit{M. F. Selivanov}, Dopov. Nats. Akad. Nauk Ukr., Mat. Pryr. Tekh. Nauky 2015, No. 7, 62--69 (2015; Zbl 1340.74085) Full Text: DOI
Wang, Yongxiang; Waisman, Haim Progressive delamination analysis of composite materials using XFEM and a discrete damage zone model. (English) Zbl 1311.74012 Comput. Mech. 55, No. 1, 1-26 (2015). MSC: 74A60 74S05 74A50 PDFBibTeX XMLCite \textit{Y. Wang} and \textit{H. Waisman}, Comput. Mech. 55, No. 1, 1--26 (2015; Zbl 1311.74012) Full Text: DOI
Irzal, F.; Remmers, J. J. C.; Verhoosel, C. V.; De Borst, R. An isogeometric analysis Bézier interface element for mechanical and poromechanical fracture problems. (English) Zbl 1352.74366 Int. J. Numer. Methods Eng. 97, No. 8, 608-628 (2014). MSC: 74S05 65N30 65D17 74R10 PDFBibTeX XMLCite \textit{F. Irzal} et al., Int. J. Numer. Methods Eng. 97, No. 8, 608--628 (2014; Zbl 1352.74366) Full Text: DOI Link
Irzal, Faisal; Remmers, Joris J. C.; Huyghe, Jacques M.; de Borst, René A large deformation formulation for fluid flow in a progressively fracturing porous material. (English) Zbl 1352.76113 Comput. Methods Appl. Mech. Eng. 256, 29-37 (2013). MSC: 76S05 PDFBibTeX XMLCite \textit{F. Irzal} et al., Comput. Methods Appl. Mech. Eng. 256, 29--37 (2013; Zbl 1352.76113) Full Text: DOI Link
Mohammadnejad, T.; Khoei, A. R. An extended finite element method for hydraulic fracture propagation in deformable porous media with the cohesive crack model. (English) Zbl 1302.74167 Finite Elem. Anal. Des. 73, 77-95 (2013). MSC: 74S05 76S05 76M10 65M60 74F10 PDFBibTeX XMLCite \textit{T. Mohammadnejad} and \textit{A. R. Khoei}, Finite Elem. Anal. Des. 73, 77--95 (2013; Zbl 1302.74167) Full Text: DOI
Távara, Luis; Mantič, Vladislav; Salvadori, Alberto; Gray, Leonard J.; París, Federico Cohesive-zone-model formulation and implementation using the symmetric Galerkin boundary element method for homogeneous solids. (English) Zbl 1312.74058 Comput. Mech. 51, No. 4, 535-551 (2013). MSC: 74S15 74R10 PDFBibTeX XMLCite \textit{L. Távara} et al., Comput. Mech. 51, No. 4, 535--551 (2013; Zbl 1312.74058) Full Text: DOI
Chiaruttini, Vincent; Geoffroy, Dominique; Riolo, Vincent; Bonnet, Marc An adaptive algorithm for cohesive zone model and arbitrary crack propagation. (English) Zbl 1348.74337 Eur. J. Comput. Mech. 21, No. 3-6, 208-218 (2012). MSC: 74S30 74R99 PDFBibTeX XMLCite \textit{V. Chiaruttini} et al., Eur. J. Comput. Mech. 21, No. 3--6, 208--218 (2012; Zbl 1348.74337) Full Text: DOI HAL
Alizada, Alaskar The extended finite element method (XFEM) with adaptive mesh refinement for fracture mechanics. (English) Zbl 1276.74003 Berichte aus der Mechanik. Aachen: Shaker Verlag; Aachen: RWTH Aachen, Fakultät für Maschinenwesen (Diss.) (ISBN 978-3-8440-1503-4/pbk). x, 151 p. (2012). Reviewer: Ján Sládek (Bratislava) MSC: 74-02 74S05 74R10 74R20 PDFBibTeX XMLCite \textit{A. Alizada}, The extended finite element method (XFEM) with adaptive mesh refinement for fracture mechanics. Aachen: Shaker Verlag; Aachen: RWTH Aachen, Fakultät für Maschinenwesen (Diss.) (2012; Zbl 1276.74003) Full Text: Link
Carpinteri, Alberto; Paggi, Marco Modelling strain localization by cohesive/overlapping zones in tension/compression: brittleness size effects and scaling in material properties. (English) Zbl 1366.74067 ZAMM, Z. Angew. Math. Mech. 92, No. 10, 829-840 (2012). MSC: 74R10 PDFBibTeX XMLCite \textit{A. Carpinteri} and \textit{M. Paggi}, ZAMM, Z. Angew. Math. Mech. 92, No. 10, 829--840 (2012; Zbl 1366.74067) Full Text: DOI
Yang, B.; Shiva, S. Crack growth with a part-through process zone in thin plates. (English) Zbl 1283.74078 Int. J. Fract. 168, No. 2, 145-158 (2011). MSC: 74R10 74K20 PDFBibTeX XMLCite \textit{B. Yang} and \textit{S. Shiva}, Int. J. Fract. 168, No. 2, 145--158 (2011; Zbl 1283.74078) Full Text: DOI
Liu, L. G.; Ou, Z. C.; Duan, Z. P.; Pi, A. G.; Huang, F. L. Strain-rate effects on deflection/penetration of crack terminating perpendicular to bimaterial interface under dynamic loadings. (English) Zbl 1283.74064 Int. J. Fract. 167, No. 2, 135-145 (2011). MSC: 74R10 74E30 PDFBibTeX XMLCite \textit{L. G. Liu} et al., Int. J. Fract. 167, No. 2, 135--145 (2011; Zbl 1283.74064) Full Text: DOI
Hütter, Geralf; Mühlich, Uwe; Kuna, Meinhard Simulation of local instabilities during crack propagation in the ductile-brittle transition region. (English) Zbl 1278.74153 Eur. J. Mech., A, Solids 30, No. 3, 195-203 (2011). MSC: 74R10 74R20 74S05 PDFBibTeX XMLCite \textit{G. Hütter} et al., Eur. J. Mech., A, Solids 30, No. 3, 195--203 (2011; Zbl 1278.74153) Full Text: DOI
Zheng, L. L.; Gao, Y. F.; Lee, S. Y.; Barabash, R. I.; Lee, J. H.; Liaw, P. K. Intergranular strain evolution near fatigue crack tips in polycrystalline metals. (English) Zbl 1270.74193 J. Mech. Phys. Solids 59, No. 11, 2307-2322 (2011). MSC: 74R20 74E15 PDFBibTeX XMLCite \textit{L. L. Zheng} et al., J. Mech. Phys. Solids 59, No. 11, 2307--2322 (2011; Zbl 1270.74193) Full Text: DOI Link
Fang, X. J.; Yang, Q. D.; Cox, B. N.; Zhou, Z. Q. An augmented cohesive zone element for arbitrary crack coalescence and bifurcation in heterogeneous materials. (English) Zbl 1242.74111 Int. J. Numer. Methods Eng. 88, No. 9, 841-861 (2011). MSC: 74S05 74R10 74E05 PDFBibTeX XMLCite \textit{X. J. Fang} et al., Int. J. Numer. Methods Eng. 88, No. 9, 841--861 (2011; Zbl 1242.74111) Full Text: DOI
Zheng, DongJian; Huo, ZhongYan; Li, Bo Arch-dam crack deformation monitoring hybrid model based on XFEM. (English) Zbl 1239.74091 Sci. China, Technol. Sci. 54, No. 10, 2611-2617 (2011). MSC: 74R99 74S05 74K10 PDFBibTeX XMLCite \textit{D. Zheng} et al., Sci. China, Technol. Sci. 54, No. 10, 2611--2617 (2011; Zbl 1239.74091) Full Text: DOI
Morel, Stephane; Dourado, N. Size effect in quasibrittle failure: analytical model and numerical simulations using cohesive zone model. (English) Zbl 1236.74258 Int. J. Solids Struct. 48, No. 10, 1403-1412 (2011). MSC: 74R10 PDFBibTeX XMLCite \textit{S. Morel} and \textit{N. Dourado}, Int. J. Solids Struct. 48, No. 10, 1403--1412 (2011; Zbl 1236.74258) Full Text: DOI
Murer, S.; Leguillon, D. Static and fatigue failure of quasi-brittle materials at a V-notch using a Dugdale model. (English) Zbl 1476.74135 Eur. J. Mech., A, Solids 29, No. 2, 109-118 (2010). MSC: 74R10 74G70 PDFBibTeX XMLCite \textit{S. Murer} and \textit{D. Leguillon}, Eur. J. Mech., A, Solids 29, No. 2, 109--118 (2010; Zbl 1476.74135) Full Text: DOI HAL
Carpinteri, Alberto; Corrado, Mauro; Paggi, Marco An integrated cohesive/overlapping crack model for the analysis of flexural cracking and crushing in RC beams. (English) Zbl 1273.74430 Int. J. Fract. 161, No. 2, 161-173 (2010). MSC: 74R10 74K10 74E30 74S05 PDFBibTeX XMLCite \textit{A. Carpinteri} et al., Int. J. Fract. 161, No. 2, 161--173 (2010; Zbl 1273.74430) Full Text: DOI
Dempsey, John P.; Tan, Li; Wang, Shen An isolated cohesive crack in tension. (English) Zbl 1234.74046 Contin. Mech. Thermodyn. 22, No. 6-8, 617-634 (2010). MSC: 74R10 74L05 86A40 PDFBibTeX XMLCite \textit{J. P. Dempsey} et al., Contin. Mech. Thermodyn. 22, No. 6--8, 617--634 (2010; Zbl 1234.74046) Full Text: DOI
Rabczuk, Timon; Zi, Goangseup; Bordas, Stephane; Nguyen-Xuan, Hung A simple and robust three-dimensional cracking-particle method without enrichment. (English) Zbl 1231.74493 Comput. Methods Appl. Mech. Eng. 199, No. 37-40, 2437-2455 (2010). MSC: 74S30 74R10 PDFBibTeX XMLCite \textit{T. Rabczuk} et al., Comput. Methods Appl. Mech. Eng. 199, No. 37--40, 2437--2455 (2010; Zbl 1231.74493) Full Text: DOI
Allix, O.; Kerfriden, P.; Gosselet, P. A relocalization technique for the multiscale computation of delamination in composite structures. (English) Zbl 1231.74398 CMES, Comput. Model. Eng. Sci. 55, No. 3, 271-292 (2010). MSC: 74S05 74E30 PDFBibTeX XMLCite \textit{O. Allix} et al., CMES, Comput. Model. Eng. Sci. 55, No. 3, 271--292 (2010; Zbl 1231.74398) Full Text: DOI arXiv
Zeng, Xiaowei; Li, Shaofan A multiscale cohesive zone model and simulations of fractures. (English) Zbl 1227.74054 Comput. Methods Appl. Mech. Eng. 199, No. 9-12, 547-556 (2010). MSC: 74R05 74S05 PDFBibTeX XMLCite \textit{X. Zeng} and \textit{S. Li}, Comput. Methods Appl. Mech. Eng. 199, No. 9--12, 547--556 (2010; Zbl 1227.74054) Full Text: DOI
Ooi, E. T.; Yang, Z. J. A hybrid finite element-scaled boundary finite element method for crack propagation modelling. (English) Zbl 1227.74084 Comput. Methods Appl. Mech. Eng. 199, No. 17-20, 1178-1192 (2010). MSC: 74S05 74S15 74R10 PDFBibTeX XMLCite \textit{E. T. Ooi} and \textit{Z. J. Yang}, Comput. Methods Appl. Mech. Eng. 199, No. 17--20, 1178--1192 (2010; Zbl 1227.74084) Full Text: DOI
Xu, Yangjian; Yuan, Huang Computational modeling of mixed-mode fatigue crack growth using extended finite element methods. (English) Zbl 1273.74524 Int. J. Fract. 159, No. 2, 151-165 (2009). MSC: 74R20 74S05 PDFBibTeX XMLCite \textit{Y. Xu} and \textit{H. Yuan}, Int. J. Fract. 159, No. 2, 151--165 (2009; Zbl 1273.74524) Full Text: DOI
Khoei, A. R.; Moslemi, H.; Majd Ardakany, K.; Barani, O. R.; Azadi, H. Modeling of cohesive crack growth using an adaptive mesh refinement via the modified-SPR technique. (English) Zbl 1273.74454 Int. J. Fract. 159, No. 1, 21-41 (2009). MSC: 74R10 74S05 PDFBibTeX XMLCite \textit{A. R. Khoei} et al., Int. J. Fract. 159, No. 1, 21--41 (2009; Zbl 1273.74454) Full Text: DOI
Ooi, E. T.; Yang, Z. J. Modelling multiple cohesive crack propagation using a finite element-scaled boundary finite element coupled method. (English) Zbl 1244.74129 Eng. Anal. Bound. Elem. 33, No. 7, 915-929 (2009). MSC: 74S05 74S15 74R10 PDFBibTeX XMLCite \textit{E. T. Ooi} and \textit{Z. J. Yang}, Eng. Anal. Bound. Elem. 33, No. 7, 915--929 (2009; Zbl 1244.74129) Full Text: DOI
Ling, Daosheng; Han, Chao; Chen, Yunmin An enhanced finite element method with separate mathematical and physical mesh. II. Application in propagation of cohesive crack. (Chinese. English summary) Zbl 1201.74267 Chin. J. Comput. Mech. 26, No. 3, 408-414 (2009). MSC: 74S05 74R99 PDFBibTeX XMLCite \textit{D. Ling} et al., Chin. J. Comput. Mech. 26, No. 3, 408--414 (2009; Zbl 1201.74267)
Pannachet, T.; Sluys, L. J.; Askes, H. Error estimation and adaptivity for discontinuous failure. (English) Zbl 1183.74304 Int. J. Numer. Methods Eng. 78, No. 5, 528-563 (2009). MSC: 74S05 74R10 PDFBibTeX XMLCite \textit{T. Pannachet} et al., Int. J. Numer. Methods Eng. 78, No. 5, 528--563 (2009; Zbl 1183.74304) Full Text: DOI
Fedele, R.; Raka, B.; Hild, F.; Roux, S. Identification of adhesive properties in GLARE assemblies using digital image correlation. (English) Zbl 1173.74300 J. Mech. Phys. Solids 57, No. 7, 1003-1016 (2009). MSC: 74A05 PDFBibTeX XMLCite \textit{R. Fedele} et al., J. Mech. Phys. Solids 57, No. 7, 1003--1016 (2009; Zbl 1173.74300) Full Text: DOI HAL
Jäger, P.; Steinmann, P.; Kuhl, E. Modeling three-dimensional crack propagation — a comparison of crack path tracking strategies. (English) Zbl 1195.74149 Int. J. Numer. Methods Eng. 76, No. 9, 1328-1352 (2008). MSC: 74R10 74S05 PDFBibTeX XMLCite \textit{P. Jäger} et al., Int. J. Numer. Methods Eng. 76, No. 9, 1328--1352 (2008; Zbl 1195.74149) Full Text: DOI
Fagerström, M.; Larsson, R. Approaches to dynamic fracture modelling at finite deformations. (English) Zbl 1171.74311 J. Mech. Phys. Solids 56, No. 2, 613-639 (2008). MSC: 74A45 74S05 PDFBibTeX XMLCite \textit{M. Fagerström} and \textit{R. Larsson}, J. Mech. Phys. Solids 56, No. 2, 613--639 (2008; Zbl 1171.74311) Full Text: DOI
Wang, Jialai; Zhang, Chao Nonlinear fracture mechanics of flexural-shear crack induced debonding of FRP strengthened concrete beams. (English) Zbl 1169.74583 Int. J. Solids Struct. 45, No. 10, 2916-2936 (2008). MSC: 74R99 74E30 74G05 74S05 PDFBibTeX XMLCite \textit{J. Wang} and \textit{C. Zhang}, Int. J. Solids Struct. 45, No. 10, 2916--2936 (2008; Zbl 1169.74583) Full Text: DOI
Yang, Zhen-Jun; Liu, Guo-Hua Towards fully automatic modelling of the fracture process in quasi-brittle and ductile materials: a unified crack growth criterion. (English) Zbl 1159.74438 J. Zhejiang Univ., Sci. A 9, No. 7, 867-877 (2008). MSC: 74S05 74R05 PDFBibTeX XMLCite \textit{Z.-J. Yang} and \textit{G.-H. Liu}, J. Zhejiang Univ., Sci. A 9, No. 7, 867--877 (2008; Zbl 1159.74438) Full Text: DOI
Gasser, T. Christian; Holzapfel, Gerhard A. A numerical framework to model 3-D fracture in bone tissue with application to failure of the proximal femur. (English) Zbl 1209.74047 Combescure, Alain (ed.) et al., IUTAM symposium on discretization methods for evolving discontinuities. Proceedings of the IUTAM symposium held in Lyon, France, September 4–7, 2006. Dordrecht: Springer (ISBN 978-1-4020-6529-3/hbk). IUTAM Bookseries 5, 199-211 (2007). MSC: 74S05 74R10 74L15 92C10 PDFBibTeX XMLCite \textit{T. C. Gasser} and \textit{G. A. Holzapfel}, IUTAM Bookser. 5, 199--211 (2007; Zbl 1209.74047) Full Text: DOI
Nistor, Ionel; Pantalé, Olivier; Caperaa, Serge Numerical propagation of dynamic cracks using X-FEM. (English) Zbl 1208.74160 Rev. Eur. Méc. Numér. 16, No. 2, 183-198 (2007). MSC: 74S05 74R10 74H15 PDFBibTeX XMLCite \textit{I. Nistor} et al., Rev. Eur. Méc. Numér. 16, No. 2, 183--198 (2007; Zbl 1208.74160) Full Text: DOI Link
Zavattieri, Pablo D.; Hector, Louis G. jun.; Bower, Allan F. Determination of the effective mode-I toughness of a sinusoidal interface between two elastic solids. (English) Zbl 1198.74080 Int. J. Fract. 145, No. 3, 167-180 (2007). MSC: 74R10 74S05 PDFBibTeX XMLCite \textit{P. D. Zavattieri} et al., Int. J. Fract. 145, No. 3, 167--180 (2007; Zbl 1198.74080) Full Text: DOI
Yang, Z. J.; Deeks, A. J. Modelling cohesive crack growth using a two-step finite element-scaled boundary finite element coupled method. (English) Zbl 1197.74189 Int. J. Fract. 143, No. 4, 333-354 (2007). MSC: 74S05 74S15 74R10 PDFBibTeX XMLCite \textit{Z. J. Yang} and \textit{A. J. Deeks}, Int. J. Fract. 143, No. 4, 333--354 (2007; Zbl 1197.74189) Full Text: DOI
Jonsén, P.; Häggblad, H.-å. Fracture energy based constitutive models for tensile fracture of metal powder compacts. (English) Zbl 1166.74423 Int. J. Solids Struct. 44, No. 20, 6398-6411 (2007). MSC: 74R99 74S05 PDFBibTeX XMLCite \textit{P. Jonsén} and \textit{H. å. Häggblad}, Int. J. Solids Struct. 44, No. 20, 6398--6411 (2007; Zbl 1166.74423) Full Text: DOI
Rabczuk, T.; Belytschko, T. A three-dimensional large deformation meshfree method for arbitrary evolving cracks. (English) Zbl 1128.74051 Comput. Methods Appl. Mech. Eng. 196, No. 29-30, 2777-2799 (2007). MSC: 74S30 74R10 PDFBibTeX XMLCite \textit{T. Rabczuk} and \textit{T. Belytschko}, Comput. Methods Appl. Mech. Eng. 196, No. 29--30, 2777--2799 (2007; Zbl 1128.74051) Full Text: DOI
Li, Shanhu; Ghosh, Somnath Multiple cohesive crack growth in brittle materials by the extended Voronoi cell finite element model. (English) Zbl 1197.74114 Int. J. Fract. 141, No. 3-4, 373-393 (2006). MSC: 74R10 74S05 PDFBibTeX XMLCite \textit{S. Li} and \textit{S. Ghosh}, Int. J. Fract. 141, No. 3--4, 373--393 (2006; Zbl 1197.74114) Full Text: DOI
Yang, B. A novel boundary-domain element method of initial stress, finite deformation and discrete cracks in multilayered anisotropic elastic solids. (English) Zbl 1197.74191 Int. J. Fract. 141, No. 1-2, 3-10 (2006). MSC: 74S15 74R10 74B20 74E10 PDFBibTeX XMLCite \textit{B. Yang}, Int. J. Fract. 141, No. 1--2, 3--10 (2006; Zbl 1197.74191) Full Text: DOI
Shim, Do-Jun; Paulino, Glaucio H.; Dodds, Robert H. jun. \(J\) resistance behavior in functionally graded materials using cohesive zone and modified boundary layer models. (English) Zbl 1197.74132 Int. J. Fract. 139, No. 1, 91-117 (2006). MSC: 74R10 74E05 PDFBibTeX XMLCite \textit{D.-J. Shim} et al., Int. J. Fract. 139, No. 1, 91--117 (2006; Zbl 1197.74132) Full Text: DOI
Svahn, Per-Ola; Runesson, Kenneth A rate-dependent cohesive crack model based on anisotropic damage coupled to plasticity. (English) Zbl 1196.74255 Int. J. Numer. Anal. Methods Geomech. 30, No. 9, 887-916 (2006). MSC: 74R20 74S05 PDFBibTeX XMLCite \textit{P.-O. Svahn} and \textit{K. Runesson}, Int. J. Numer. Anal. Methods Geomech. 30, No. 9, 887--916 (2006; Zbl 1196.74255) Full Text: DOI
Brocks, Wolfgang; Scheider, Ingo; Schödel, Manfred Simulation of crack extension in shell structures and prediction of residual strength. (English) Zbl 1161.74468 Arch. Appl. Mech. 76, No. 11-12, 655-665 (2006). MSC: 74R10 74K25 74S05 PDFBibTeX XMLCite \textit{W. Brocks} et al., Arch. Appl. Mech. 76, No. 11--12, 655--665 (2006; Zbl 1161.74468) Full Text: DOI Link
Gasser, T. Christian; Holzapfel, Gerhard A. Modeling the propagation of arterial dissection. (English) Zbl 1187.74004 Eur. J. Mech., A, Solids 25, No. 4, 617-633 (2006). MSC: 74-06 70-06 00B25 PDFBibTeX XMLCite \textit{T. C. Gasser} and \textit{G. A. Holzapfel}, Eur. J. Mech., A, Solids 25, No. 4, 617--633 (2006; Zbl 1187.74004) Full Text: DOI
Crouch, S. L.; Mogilevskaya, S. G. Loosening of elastic inclusions. (English) Zbl 1120.74375 Int. J. Solids Struct. 43, No. 6, 1638-1668 (2006). MSC: 74E05 74E35 74B05 PDFBibTeX XMLCite \textit{S. L. Crouch} and \textit{S. G. Mogilevskaya}, Int. J. Solids Struct. 43, No. 6, 1638--1668 (2006; Zbl 1120.74375) Full Text: DOI
Yamakov, V.; Saether, E.; Phillips, D. R.; Glaessgen, E. H. Molecular-dynamics simulation-based cohesive zone representation of intergranular fracture processes in aluminum. (English) Zbl 1120.74782 J. Mech. Phys. Solids 54, No. 9, 1899-1928 (2006). MSC: 74R20 74E20 74S30 74S05 PDFBibTeX XMLCite \textit{V. Yamakov} et al., J. Mech. Phys. Solids 54, No. 9, 1899--1928 (2006; Zbl 1120.74782) Full Text: DOI Link
Ishii, Tateki; Terada, Kenjiro; Kyoya, Takashi Failure analysis of quasi-brittle materials involving multiple mechanisms on fractured surfaces. (English) Zbl 1113.74059 Int. J. Numer. Methods Eng. 67, No. 7, 960-988 (2006). MSC: 74R10 74S30 74G65 PDFBibTeX XMLCite \textit{T. Ishii} et al., Int. J. Numer. Methods Eng. 67, No. 7, 960--988 (2006; Zbl 1113.74059) Full Text: DOI
Berton, Stefano; Bolander, John E. Crack band model of fracture in irregular lattices. (English) Zbl 1331.74152 Comput. Methods Appl. Mech. Eng. 195, No. 52, 7172-7181 (2006). MSC: 74R99 74S30 PDFBibTeX XMLCite \textit{S. Berton} and \textit{J. E. Bolander}, Comput. Methods Appl. Mech. Eng. 195, No. 52, 7172--7181 (2006; Zbl 1331.74152) Full Text: DOI
Yang, Qingda; Cox, Brian Cohesive models for damage evolution in laminated composites. (English) Zbl 1196.74231 Int. J. Fract. 133, No. 2, 107-137 (2005). MSC: 74R10 74E30 PDFBibTeX XMLCite \textit{Q. Yang} and \textit{B. Cox}, Int. J. Fract. 133, No. 2, 107--137 (2005; Zbl 1196.74231) Full Text: DOI
Wang, B.; Siegmund, T. A numerical analysis of constraint effects in fatigue crack growth by use of an irreversible cohesive zone model. (English) Zbl 1196.74220 Int. J. Fract. 132, No. 2, 175-196 (2005). MSC: 74R10 74S05 PDFBibTeX XMLCite \textit{B. Wang} and \textit{T. Siegmund}, Int. J. Fract. 132, No. 2, 175--196 (2005; Zbl 1196.74220) Full Text: DOI
Yang, Zhenjun An energy-based crack growth criterion for modelling elastic-plastic ductile fracture. (English) Zbl 1192.74350 Mech. Res. Commun. 32, No. 5, 514-524 (2005). MSC: 74R20 74S05 PDFBibTeX XMLCite \textit{Z. Yang}, Mech. Res. Commun. 32, No. 5, 514--524 (2005; Zbl 1192.74350) Full Text: DOI
Rabczuk, T.; Belytschko, T. Cracking particles: a simplified meshfree method for arbitrary evolving cracks. (English) Zbl 1075.74703 Int. J. Numer. Methods Eng. 61, No. 13, 2316-2343 (2004). MSC: 74S30 74R10 PDFBibTeX XMLCite \textit{T. Rabczuk} and \textit{T. Belytschko}, Int. J. Numer. Methods Eng. 61, No. 13, 2316--2343 (2004; Zbl 1075.74703) Full Text: DOI
Oskay, Caglar; Fish, Jacob Fatigue life prediction using 2-scale temporal asymptotic homogenization. (English) Zbl 1075.74613 Int. J. Numer. Methods Eng. 61, No. 3, 329-359 (2004). MSC: 74Q10 74R05 PDFBibTeX XMLCite \textit{C. Oskay} and \textit{J. Fish}, Int. J. Numer. Methods Eng. 61, No. 3, 329--359 (2004; Zbl 1075.74613) Full Text: DOI