Cellular Solids: Structure, Properties and Applications

Cellular Solids: Structure, Properties and Applications

Lorna Gibson via MIT OpenCourseWare Direct link

9. Foams: Thermal Properties

9 of 25

9 of 25

9. Foams: Thermal Properties

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Classroom Contents

Cellular Solids: Structure, Properties and Applications

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  1. 1 1. Introduction and Overview (MIT 3.054 Cellular Solids: Structure, Properties, Applications, S15)
  2. 2 2. Processing of Cellular Solids
  3. 3 3. Structure of Cellular Solids
  4. 4 4. Honeycombs: In-plane Behavior
  5. 5 5. Honeycombs: Out-of-plane Behavior
  6. 6 6. Natural Honeycombs: Wood
  7. 7 7. Natural Honeycombs: Cork; Foams: Linear Elasticity
  8. 8 8. Foams: Non-linear Elasticity
  9. 9 9. Foams: Thermal Properties
  10. 10 10. Exam Review
  11. 11 11. Trabecular Bone and Osteoporosis
  12. 12 12. Trabecular Bone, Osteoporosis, and Evolution
  13. 13 13. Tissue Engineering Scaffolds: Processing and Properties
  14. 14 14. Tissue Engineering: Osteochondral Scaffold; How To Write a Paper
  15. 15 15. Cell-scaffold Interactions; Energy Absorption
  16. 16 16. Applications: Energy Absorption in Foams
  17. 17 17. Sandwich Panels
  18. 18 18. Natural Sandwich Structures; Density Gradients
  19. 19 19. Biomimicking
  20. 20 Faculty Introduction and Background
  21. 21 Student Project Examples
  22. 22 Project Logistics and Support
  23. 23 Lecture Preparation
  24. 24 Role of Images
  25. 25 Unique Aspects of the Course

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