Residual stresses in metal deposition modeling: discretizations of higher order
From MaRDI portal
Publication:2003894
DOI10.1016/j.camwa.2018.10.027zbMath1443.65363arXiv1809.07663OpenAlexW2890573616WikidataQ128967226 ScholiaQ128967226MaRDI QIDQ2003894
J. Jomo, Stefan Kollmannsberger, Ernst Rank, Ali I. Özcan
Publication date: 13 October 2020
Published in: Computers \& Mathematics with Applications (Search for Journal in Brave)
Full work available at URL: https://arxiv.org/abs/1809.07663
Finite element, Rayleigh-Ritz and Galerkin methods for boundary value problems involving PDEs (65N30) Analysis of microstructure in solids (74N15)
Related Items (3)
Adaptive Quadrature and Remeshing Strategies for the Finite Cell Method at Large Deformations ⋮ Error Control and Adaptivity for the Finite Cell Method ⋮ Hierarchical multigrid approaches for the finite cell method on uniform and multi-level \(h p\)-refined grids
Uses Software
Cites Work
- Unnamed Item
- The superconvergent patch recovery (SPR) and adaptive finite element refinement
- Isogeometric analysis of nearly incompressible large strain plasticity
- Three-dimensional data transfer operators in large plasticity deformations using modified-SPR technique
- The finite cell method for three-dimensional problems of solid mechanics
- An \(rp\)-adaptive finite element method for the deformation theory of plasticity
- Finite cell method. \(h\)- and \(p\)-extension for embedded domain problems in solid mechanics
- Elasto-plastic thermal stresses in a solidifying body
- Error indicators and adaptive remeshing in large deformation finite element analysis
- Transfer operators for evolving meshes in small strain elasto-plasticity
- Automatic remeshing for three-dimensional finite element simulation of welding
- A hierarchical computational model for moving thermal loads and phase changes with applications to selective laser melting
- The finite cell method for nearly incompressible finite strain plasticity problems with complex geometries
- Recovery procedures in error estimation and adaptivity. II: Adaptivity in nonlinear problems of elasto-plasticity behaviour
- Multi-level \(hp\)-adaptivity: high-order mesh adaptivity without the difficulties of constraining hanging nodes
- Smart octrees: accurately integrating discontinuous functions in 3D
- The multi-level \(hp\)-method for three-dimensional problems: dynamically changing high-order mesh refinement with arbitrary hanging nodes
- Numerical modelling of welding
- The p‐version of the finite element method for three‐dimensional curved thin walled structures
- The superconvergent patch recovery anda posteriori error estimates. Part 2: Error estimates and adaptivity
- A temperature‐based formulation for finite element analysis of generalized phase‐change problems
This page was built for publication: Residual stresses in metal deposition modeling: discretizations of higher order
