All Stories

  1. Comparison between the Marciniak and Kuczyński imperfection approach and bifurcation theory in the prediction of localized necking for porous ductile materials
  2. Buckling and wrinkling of thin membranes by using a numerical solver based on multivariate Taylor series
  3. Strain Localization Modes within Single Crystals Using Finite Deformation Strain Gradient Crystal Plasticity
  4. An advanced elastoplastic framework accounting for induced plastic anisotropy fully coupled with ductile damage
  5. An Anisotropic Model with Linear Perturbation Technique to Predict HCP Sheet Metal Ductility Limit
  6. Analyticity of solutions to thermo‐elastic‐plastic flow problem with microtemperatures
  7. Formability prediction using bifurcation criteria and GTN damage model
  8. Formability prediction of substrate-supported metal layers using a non-associated plastic flow rule
  9. Investigation of the competition between void coalescence and macroscopic strain localization using the periodic homogenization multiscale scheme
  10. Prediction of forming limits for porous materials using void-size dependent model and bifurcation approach
  11. An elasto-plastic self-consistent model for damaged polycrystalline materials: Theoretical formulation and numerical implementation
  12. Comparative study of three techniques for the computation of the macroscopic tangent moduli by periodic homogenization scheme
  13. Prediction of necking in HCP sheet metals using a two-surface plasticity model
  14. Strain gradient crystal plasticity model based on generalized non-quadratic defect energy and uncoupled dissipation
  15. Numerical investigation of necking in perforated sheets using the periodic homogenization approach
  16. Finite Element Simulation of Sheet Metal Forming Processes using Non-Quadratic Anisotropic Plasticity Models and Solid—Shell Finite Elements
  17. Simulation of Structural Applications and Sheet Metal Forming Processes Based on Quadratic Solid–Shell Elements with Explicit Dynamic Formulation
  18. Prediction of the Ductility Limit of Magnesium AZ31B Alloy
  19. Formability limit prediction of TRIP780 steel sheet using lode angle dependent gurson-based models with Thomason coalescence criterion and bifurcation analysis
  20. Advances in Acoustics and Vibration II
  21. A numerical method based on Taylor series for bifurcation analyses within Föppl–von Karman plate theory
  22. Influence of the Non-Schmid Effects on the Ductility Limit of Polycrystalline Sheet Metals
  23. Strain localization analysis for planar polycrystals based on bifurcation theory
  24. Quadratic Solid–Shell Finite Elements for Geometrically Nonlinear Analysis of Functionally Graded Material Plates
  25. Mathematical and numerical analysis in thermo-gradient-dependent theory of plasticity
  26. New linear and quadratic prismatic piezoelectric solid–shell finite elements
  27. Ductility prediction of substrate-supported metal layers based on rate-independent crystal plasticity theory
  28. Influence of geometric and material parameters on the damping properties of multilayer structures
  29. Computationally efficient predictions of crystal plasticity based forming limit diagrams using a spectral database
  30. Numerical investigation of the combined effects of curvature and normal stress on sheet metal formability
  31. Numerical Predictions of the Occurrence of Necking in Deep Drawing Processes
  32. Determination of Forming Limit Diagrams Based on Ductile Damage Models and Necking Criteria
  33. Prediction of Plastic Instability in Sheet Metals During Forming Processes Using the Loss of Ellipticity Approach
  34. Theoretical and numerical investigation of the impact of out-of-plane compressive stress on sheet metal formability
  35. Modeling of hybrid vibration control for multilayer structures using solid-shell finite elements
  36. Explicit dynamic analysis of sheet metal forming processes using linear prismatic and hexahedral solid-shell elements
  37. Quadratic prismatic and hexahedral solid–shell elements for geometric nonlinear analysis of laminated composite structures
  38. Prediction of necking in thin sheet metals using an elastic–plastic model coupled with ductile damage and bifurcation criteria
  39. Strain rate effects on localized necking in substrate-supported metal layers
  40. Effect of kinematic hardening on localized necking in substrate-supported metal layers
  41. Localized necking predictions based on rate-independent self-consistent polycrystal plasticity: Bifurcation analysis versus imperfection approach
  42. Linear and quadratic solid–shell finite elements SHB8PSE and SHB20E for the modeling of piezoelectric sandwich structures
  43. Localized Necking in Elastomer-Supported Metal Layers: Impact of Kinematic Hardening
  44. Linear and Quadratic Solid-Shell Elements for Quasi-Static and Dynamic Simulations of Thin 3D Structures: Application to a Deep Drawing Process
  45. Influence of the Yield Surface Curvature on the Forming Limit Diagrams Predicted by Crystal Plasticity Theory
  46. Quadratic solid–shell elements for nonlinear structural analysis and sheet metal forming simulation
  47. Prediction of Localized Necking Based on Crystal Plasticity: Comparison of Bifurcation and Imperfection Approaches
  48. Numerical integration of rate-independent BCC single crystal plasticity models: comparative study of two classes of numerical algorithms
  49. Ductility prediction of substrate-supported metal layers based on rate-independent crystal plasticity theory
  50. Prediction of Forming Limit Diagrams under combined Bending-Stretching loadings
  51. Simulation of nonlinear benchmarks and sheet metal forming processes using linear and quadratic solid–shell elements combined with advanced anisotropic behavior models
  52. Modeling of void coalescence initiation and its impact on the prediction of material failure
  53. On the use of solid–shell elements for thin structures: Application to impact and sheet metal forming simulations
  54. Investigation of ductility limits based on bifurcation theory coupled with continuum damage mechanics
  55. Combined effect of damage and plastic anisotropy on the ductility limit of thin metal sheets
  56. Modeling of viscoelastic sandwich beams using solid–shell finite elements
  57. Hardening effects on strain localization predictions in porous ductile materials using the bifurcation approach
  58. Investigation of the effect of temper rolling on the texture evolution and mechanical behavior of IF steels using multiscale simulation
  59. A Comparative Study of Forming Limit Diagrams Predicted by Two Different Plasticity Theories Involving Vertex Effects
  60. Efficient Solid–Shell Finite Elements for Quasi-Static and Dynamic Analyses and their Application to Sheet Metal Forming Simulation
  61. Investigation of localized necking in substrate-supported metal layers: Comparison of bifurcation and imperfection analyses
  62. BIFURCATION ANALYSIS VERSUS MAXIMUM FORCE CRITERIA IN FORMABILITY LIMIT ASSESSMENT OF STRETCHED METAL SHEETS
  63. Ductility limit prediction using a GTN damage model coupled with localization bifurcation analysis
  64. Multiscale Finite Element Simulation of Forming Processes Based on Crystal Plasticity
  65. Effect of Microstructural and Morphological Parameters on the Formability of BCC Metal Sheets
  66. Investigation and comparative analysis of plastic instability criteria: application to forming limit diagrams
  67. Impact of Intragranular Substructure Parameters on the Forming Limit Diagrams of Single-Phase B.C.C. Steels
  68. Strain localization analysis for single crystals and polycrystals: Towards microstructure-ductility linkage
  69. Elasto-visco-plastic modeling of mild steels for sheet forming applications over a large range of strain rates
  70. Dislocation-based model for the prediction of the behavior of b.c.c. materials – Grain size and strain path effects
  71. Physically-Motivated Elasto-Visco-Plastic Model for the Large Strain-Rate Behavior of Steels
  72. Effect of Microstructural and Physical Mechanisms on Mechanical Properties of Single-Phase Steels
  73. New quadratic solid–shell elements and their evaluation on linear benchmark problems
  74. Numerical investigation and experimental validation of a plasticity model for sheet steel forming
  75. A NEW PRISMATIC SOLID-SHELL ELEMENT ‘SHB6’: ASSUMED-STRAIN FORMULATION AND EVALUATION ON BENCHMARK PROBLEMS
  76. Assumed-strain solid–shell formulation for the six-node finite element SHB6: evaluation on non-linear benchmark problems
  77. Application of the continuum shell finite element SHB8PS to sheet forming simulation using an extended large strain anisotropic elastic–plastic formulation
  78. Plastic Instability Based on Bifurcation Analysis: Effect of Hardening and Gurson Damage Parameters on Strain Localization
  79. A new assumed strain solid-shell formulation “SHB6” for the six-node prismatic finite element
  80. A proposed set of popular limit-point buckling benchmark problems
  81. Limit-point buckling analyses using solid, shell and solid-shell elements
  82. Impact of intragranular microstructure development on ductility limits of multiphase steels
  83. New prismatic solid-shell element: assumed strain formulation and hourglass mode analysis
  84. Prediction of Springback After Draw-Bending Test Using Different Material Models
  85. On the implementation of the continuum shell finite element SHB8PS and application to sheet forming simulation
  86. Application of a dislocation based model for Interstitial Free (IF) steels to typical stamping simulations
  87. An improved assumed strain solid–shell element formulation with physical stabilization for geometric non-linear applications and elastic–plastic stability analysis
  88. Strain localization analysis using a large deformation anisotropic elastic–plastic model coupled with damage
  89. Role of intragranular microstructure development in the macroscopic behavior of multiphase steels in the context of changing strain paths
  90. Formability prediction of thin metal sheets using various localization criteria
  91. Strain localization analysis using a multiscale model
  92. Ellipticity loss analysis for tangent moduli deduced from a large strain elastic–plastic self-consistent model
  93. Strain localization and damage prediction during sheet metal forming
  94. A physically stabilized and locking-free formulation of the (SHB8PS) solid-shell element
  95. Investigation of advanced strain-path dependent material models for sheet metal forming simulations
  96. A quasi-static stability analysis for Biot's equation and standard dissipative systems
  97. Finite Element Prediction of Sheet Forming Defects Using Elastic-Plastic, Damage and Localization Models
  98. A Multiscale Model Based On Intragranular Microstructure — Prediction Of Dislocation Patterns At The Microscopic Scale
  99. A Multiscale Model Based On Intragranular Microstructure: Influence Of Grain-Scale Substructure On Macroscopic Behaviour Of An IF-Steel During Complex Load Paths
  100. Ductility Loss Modelling for BCC Single Crystals
  101. Springback Simulation: Impact of Some Advanced Constitutive Models and Numerical Parameters
  102. SHB8PS––a new adaptative, assumed-strain continuum mechanics shell element for impact analysis
  103. Stability of a Quasi-Static Evolution of a Visco-Elastic, Visco-Plastic or Elastic-Plastic Solid
  104. Conditions suffisantes de stabilité pour les solides visqueux
  105. Prediction of strain localisation in forming process using advanced elasticplastic behaviour models coupled with damage