A thermodynamically consistent phase transformation model for multiphase alloys: application to \(\mathrm{Ti_6Al_4V}\) in laser powder bed fusion processes
From MaRDI portal
Publication:6661943
DOI10.1007/s00466-024-02479-zMaRDI QIDQ6661943
Andreas Menzel, Isabelle Noll, Thorsten Bartel
Publication date: 13 January 2025
Published in: Computational Mechanics (Search for Journal in Brave)
Cites Work
- Thermodynamically consistent microstructure prediction of additively manufactured materials
- Finite element simulations of poly-crystalline shape memory alloys based on a micromechanical model
- Parameter identification for finite deformation elasto-plasticity in principal directions
- Prediction of microstructure, residual stress, and deformation in laser powder bed fusion process
- A computational phase transformation model for selective laser melting processes
- Computational study on microstructure evolution and magnetic property of laser additively manufactured magnetic materials
- A micromechanical model for martensitic phase-transformations in shape-memory alloys based on energy-relaxation
- On the incorporation of a micromechanical material model into the inherent strain method—Application to the modeling of selective laser melting
This page was built for publication: A thermodynamically consistent phase transformation model for multiphase alloys: application to \(\mathrm{Ti_6Al_4V}\) in laser powder bed fusion processes
