We discuss difficulties associated with mesh generation and approaches to alleviate them. We also discuss some of the best mesh generators available as well as alternatives based on enrichment, strain smoothing and meshless methods as well as isogeometric analysis.
Table of Contents:
01:53 -
02:03 - Mathematical Modelling
02:45 - Quantify the quality of the simulation
03:18 - Quantify the quality of the simulation
03:24 - Quantify the quality of the simulation
04:11 - Quantify the quality of the simulation
05:20 - Quantify the quality of the simulation
05:22 - Quantify the quality of the simulation
07:28 - Quantify the quality of the simulation
08:13 - Quantify the quality of the simulation
08:14 - Quantify the quality of the simulation
08:48 - Quantify the quality of the simulation
09:08 - Quantify the quality of the simulation
09:29 - Quantify the quality of the simulation
11:34 - Quantify the quality of the simulation
11:42 - Quantify the quality of the simulation
12:24 - Quantify the quality of the simulation
13:31 - Quantify the quality of the simulation
13:39 - Quantify the quality of the simulation
13:43 - Quantify the quality of the simulation
14:13 - Quantify the quality of the simulation
15:10 - Quantify the quality of the simulation
15:54 -
16:44 -
18:00 -
18:30 -
18:34 -
18:55 -
19:25 -
20:16 - Alternative elements - polyhedral - virtual elements, HHO, SBFEM, smoothed FEM…
21:17 - Use polyhedra
24:43 -
24:59 - Use polyhedra
25:07 - Avoid meshing complex/evolving interfaces through unfitted methods
27:33 - Handling interfaces numerically
29:14 - Immersed collocation
generalized FD
29:26 - Isogeometric analysis
30:34 -
30:37 - Isogeometric analysis
31:17 -
31:21 -
31:23 -
5 авг 2024