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Mathematical and computational modeling of metallic biomaterials biodegradation
Abstract
1
General introduction
2
Aims and objectives
3
Developing the core computational model
4
Extending the model: adding fluid flow and convection
5
Extending the model: simulating local pH evolution
6
Computational modeling of the neotissue growth process
7
Model parallelization for high-performance computing
8
BioDeg simulation software
9
Bayesian parameter estimation of the computational models
10
Model applications: patient-specific porous acetabular implants
11
Model applications: mechanical integrity of infilled structures
12
Model applications: mechanical loosening of mandibular plates
13
Conclusion
Bibliography
Appendix
A
Mesh quality plots
Mathematical and computational modeling of metallic biomaterials biodegradation
Mathematical and computational modeling of metallic biomaterials biodegradation
Author: Mojtaba Barzegari
Supervisor: Prof. Liesbet Geris
KU Leuven, June 2023
Abstract
1
General introduction
2
Aims and objectives
3
Developing the core computational model
4
Extending the model: adding fluid flow and convection
5
Extending the model: simulating local pH evolution
6
Computational modeling of the neotissue growth process
7
Model parallelization for high-performance computing
8
BioDeg simulation software
9
Bayesian parameter estimation of the computational models
10
Model applications: patient-specific porous acetabular implants
11
Model applications: mechanical integrity of infilled structures
12
Model applications: mechanical loosening of mandibular plates
13
Conclusion
Bibliography
A
Mesh quality plots