Finite deformation analysis of bi-modulus thermoelastic structures and its application in wrinkling prediction of membranes
From MaRDI portal
Publication:6557794
DOI10.1016/j.cma.2024.117034MaRDI QIDQ6557794
Xu Guo, Zongliang Du, Xiaoqiang Ren, Shan Tang, Biao-Song Chen, Yunhang Guo, Hayoung Chung
Publication date: 18 June 2024
Published in: Computer Methods in Applied Mechanics and Engineering (Search for Journal in Brave)
finite deformationNewton-Raphson algorithmtension-compression asymmetrythermal-mechanical couplingwrinkling prediction
Numerical computation of solutions to systems of equations (65H10) Thermodynamics in solid mechanics (74A15) Membranes (74K15) Biomechanical solid mechanics (74L15)
Cites Work
- Unnamed Item
- Variational principles and the related bounding theorems for bi-modulus materials
- Mechanics and chemical thermodynamics of phase transition in temperature-sensitive hydrogels
- Structural topology optimization involving bi-modulus materials with asymmetric properties in tension and compression
- Spatial resolution of wrinkle patterns in thin elastic sheets at finite strain
- Decomposition of deformation and representation of the free energy function for isotropic thermoelastic solids
- Micromechanics modelling of the effective thermoelastic response of nano-tailored composites
- Conewise linear elastic materials
- The nonlinear membrane model as variational limit of nonlinear three-dimensional elasticity
- Level-set topology optimization considering nonlinear thermoelasticity
- Fracture in tension-compression-asymmetry solids via phase field modeling
- An efficient numerical method to solve 2-D interval bi-modular problems via orthogonal polynomial expansion
- Analytical solution for bending beam subject to lateral force with different modulus
- Convergence analysis of a finite element method based on different moduli in tension and compression
- On tension field theory.
- A wrinkling model for pneumatic membranes and the complementarity computational framework
- A new elasticity and finite element formulation for different Young’s modulus when tension and compression loadings
- Analysis of 2-D bimodular materials and wrinkled membranes based on the parametric variational principle and co-rotational approach
- The Relaxed Energy Density for Isotropic Elastic Membranes
- Tension-field theory
This page was built for publication: Finite deformation analysis of bi-modulus thermoelastic structures and its application in wrinkling prediction of membranes
