A thermodynamic framework for additive manufacturing of crystallizing polymers. II: Simulation of the printing of a stent
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Publication:2683487
DOI10.1016/J.IJENGSCI.2022.103790OpenAlexW4320476507MaRDI QIDQ2683487
Publication date: 10 February 2023
Published in: International Journal of Engineering Science (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1016/j.ijengsci.2022.103790
delaminationresidual stressUMATabaquswarpagefused deposition modeling (FDM)neointimal hyperplasiadrug-eluting bioresorbable stent (BRS)
Uses Software
Cites Work
- Robust numerical calculation of tangent moduli at finite strains based on complex-step derivative approximation and its application to localization analysis
- Reduced storage matrix methods in stiff ODE systems
- Numerical computation of algorithmic (consistent) tangent moduli in large-strain computational inelasticity
- A thermodynamic framework for the study of crystallization in polymers
- A thermodynamic framework for additive manufacturing, using amorphous polymers, capable of predicting residual stress, warpage and shrinkage
- A thermodynamic framework for the additive manufacturing of crystallizing polymers. I: A theory that accounts for phase change, shrinkage, warpage and residual stress
- Using Krylov Methods in the Solution of Large-Scale Differential-Algebraic Systems
- A study of strain-induced crystallization of polymers
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