Modeling Heat Transfer in Layered Materials with COMSOL®
Duration: 56:09
Want to learn how to simulate heat transfer in layered structures? Watch this archived webinar to learn about how the layered material functionality in COMSOL Multiphysics® supports simulating heat transfer in thin shells, composite materials, and more. You will see examples of both single and multiphysics on a layered material and how to best visualize the results.
Learn more about how the COMSOL® software can fit your heat transfer analysis needs. Contact COMSOL to evaluate the software.
Chapter Selection
Introduction (0:00)
Agenda (0:17)
Conductive Fins (1:18)
Thermal Barrier (2:25)
Thermal Expansion (3:21)
Joule Heating and Thermal Expansion (4:27)
Thin Layer Models: Large Aspect Ratio (7:20)
Thin Layer Models: Meshing Geometries with Large Aspect Ratio (8:07)
Thin Layer Models: Thermally Thin Hypothesis (8:47)
Thin Layer Models: Meshing Geometries with Large Aspect Ratio II (10:13)
Thermally Thin Model (10:47)
Thin Layer Models: Thermally Thick Hypothesis (11:53)
Thermally Thick Model (13:14)
Thin Layer: General Model (13:59)
General Thin Layer: Meshing Geometries with Large Aspect Ratio (15:10)
General Model (15:45)
Layered Material Technology? (16:35)
Benefits and Motivations for Layered Material Technology (17:28)
Physics Interfaces Compatible with Layered Material Technology (19:38)
How to: Layered Material Definition (22:01)
Layered Material Definitions: Layered Material (25:21)
Layered Material Definitions: Layered Material Link (28:29)
Layered Material Definitions: Layered Material Stack (30:14)
How-To: Physics Interfaces and Features (33:07)
How to Define Physics Properties and Features (33:32)
Layer Features (34:24)
Interfaces Features (37:08)
Continuity (38:12)
Continuity: User-Defined Offsets (39:33)
Layered Material Dataset (42:27)
Classical Plots (44:08)
Through Thickness Plots (44:23)
Layered Materials Slice Plots (44:41)
Derived Values (45:08)
Wrapping Up (45:51)
Q&A (47:10)
Further Resources (55:21)