Subject
Creator
- Joseph Wallace 2
- Matthew R Allen 2
- Thomas H Siegmund, 0000-0001-8162-9609 2
- Thomas Siegmund, 0000-0001-8162-9609 2
- Andrew Williams 1
- Dong Young Kim 1
- Kyle Patrick Mahoney 1
- Max A Hammond 1
- Max Hammond 1
- Thomas H. Siegmund, 0000-0001-8162-9609 1
Type
- Dataset 5
Date
subject: Mechanical Engineering subject: Finite Element Analysis type: dataset
Total is 5 Results
ABAQUS Code for the Simulation of Tubes Consisting of Topologically Interlocked Building Blocks
10.4231/FG9T-7V77
Kyle Patrick Mahoney
,
Thomas H Siegmund
02/21/2022
A set of three input files for ABAQUS models to simulate the response of tubes built from topologically interlocked building blocks.
Abaqus architectured tubes Finite Element Analysis mechanical Mechanical Engineering
ABAQUS Code for the Simulation of Interlocked Irregular Square Tilings
10.4231/PDKT-Q131
Dong Young Kim
,
Thomas H Siegmund
09/30/2021
A set of three input files for ABAQUS models to simulate the response of interlocked irregular square tilings subjected to displacement loading.
Abaqus Finite Element Analysis Mechanical Engineering Tessellation Topologically Interlocked Material
ABAQUS Python Code for the Simulation of Topologically Interlocked Material Systems Based on Archimedean and Laves Tilings
10.4231/JBKY-JH21
Andrew Williams
,
Thomas H. Siegmund
02/01/2020
A set of six python scripts that parametrically generate ABAQUS models to simulate the response of TIM systems based on the Archimedean and Laves tilings subjected to body force and displacement loading. These were created for a Master's Thesis at...
Abaqus Finite Element Analysis Finite Element Model Mechanical Engineering Python Code Tesselation Topologically Interlocked Material
MicroCT based FE model of bone core with tissue heterogeneity and anisotropy
10.4231/R7CC0XX4
Joseph Wallace
,
Matthew R Allen
,
Max A Hammond
,
Thomas Siegmund
06/26/2018
This publication contains a finite element model for the analysis of bone core under consideration of bone tissue heterogeneity and tissue anisotropy.
Biomedical Engineering Bone Finite Element Analysis Mechanical Engineering
MicroCT based FE model of single bone trabeculae with tissue heterogeneity and anisotropy
10.4231/R7H41PP9
Joseph Wallace
,
Matthew R Allen
,
Max Hammond
,
Thomas Siegmund
06/26/2018
This publication contains a finite element model for the analysis of single bone trabeculae under consideration of bone tissue heterogeneity and tissue anisotropy.
Biomedical Engineering Bone Finite Element Analysis Mechanical Engineering
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