MultiPhysicsVault/wiki/sources/Finite-Elements-in-Plasticity-Theory-and-Practice.md

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type	title	source_type	authors	created	updated	address	aliases	tags	status	confidence	raw_path	source_files	related
source	Finite Elements in Plasticity: Theory and Practice	book	D. R. J. Owen E. Hinton	2026-06-02	2026-06-02	c-000129	Finite Elements in Plasticity Finite Elements in Plasticity Theory and Practice	source finite-element-method plasticity nonlinear-analysis	current	high	.raw/FiniteElementsinPlasticityTheoryandPractice/	markdown_files markdown_bytes image_files image_bytes 61 1637742 1227 48705752	D. R. J. Owen E. Hinton Finite Element Plasticity Incremental Elasto-Plastic Solution Methods Plasticity Yield Criteria Plastic Flow Rules and Hardening Elasto-Viscoplastic Finite Element Analysis Elasto-Plastic Timoshenko Beam Analysis Elasto-Plastic Mindlin Plate Analysis Transient Dynamic Elasto-Plastic Analysis Finite Element Plasticity Program Architecture Plasticity Benchmark and Input Data Cases

Finite Elements in Plasticity: Theory and Practice

Summary

This book by D. R. J. Owen and E. Hinton presents finite element techniques for material plasticity. It covers quasi-static incremental elasto-plastic analysis, elasto-viscoplastic analysis, beam and plate plasticity, two-dimensional continuum plasticity, and transient dynamic elasto-plastic analysis.

For this wiki, the source fills the theory-and-implementation gap between general Nonlinear Finite Element Analysis and production material pages such as Abaqus Metal Plasticity Models and Abaqus Geomaterial and Concrete Plasticity. It is especially useful for building a custom solver because it treats plasticity as an algorithmic finite element workflow: load/time increments, element integration, yield checks, flow rules, hardening variables, tangent or initial stiffness iterations, program modules, and benchmark-style input data.

Scope

The source is organized in three parts:

• One-dimensional nonlinear problems, elasto-viscoplasticity, and elasto-plastic Timoshenko beam analysis.
• Two-dimensional elasto-plastic and elasto-viscoplastic continuum analysis, including Tresca, von Mises, Mohr-Coulomb, and Drucker-Prager yield criteria.
• Elasto-plastic Mindlin plate bending and transient dynamic elasto-plastic analysis using explicit, implicit, and mixed implicit-explicit schemes.

Extracted Threads

• Finite Element Plasticity - the overall finite element treatment of irreversible material behavior.
• Incremental Elasto-Plastic Solution Methods - direct iteration, Newton-Raphson, tangential stiffness, and initial stiffness workflows.
• Plasticity Yield Criteria - Tresca, von Mises, Mohr-Coulomb, and Drucker-Prager yield surfaces.
• Plastic Flow Rules and Hardening - associated and non-associated flow, isotropic and kinematic hardening, and yield surface evolution.
• Elasto-Viscoplastic Finite Element Analysis - rate-dependent plastic response and time-stepping interpretation.
• Elasto-Plastic Timoshenko Beam Analysis - beam bending plasticity with shear deformation.
• Elasto-Plastic Mindlin Plate Analysis - layered and nonlayered plate plastification through thickness.
• Transient Dynamic Elasto-Plastic Analysis - inertia, geometric deformation, and plastic material state in dynamic FE analysis.
• Finite Element Plasticity Program Architecture - modular program structure for plasticity finite element codes.
• Plasticity Benchmark and Input Data Cases - appendices and program cases useful for verification harness design.

Connections

The source complements Finite Element Procedures by specializing the nonlinear solution workflow for plasticity. It complements Abaqus Theory Manual and Abaqus Constitutive Integration by giving a programming-oriented path from yield criteria and flow rules to element routines and global iteration. It complements Abaqus-Analysis-User-s-Guide-Volume-III by explaining the finite element mechanics behind many metal and geomaterial plasticity model choices.

Source Files

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