Lecture Notes

The lecture notes for this course have been transcribed for accessibility. The handwritten notes and corresponding transcribed notes included in the table below contain the same information.

Some of the images originally contained in these notes have been excluded due to copyright restrictions. To see more of the images, please refer to the following books:

• Gibson, L. J., and M. F. Ashby. Cellular Solids: Structure and Properties. 2nd ed. Cambridge University Press, 1997. ISBN: 9780521495608. [Preview with Google Books]
• Gibson, L. J., M. F. Ashby, and B. A. Harley. Cellular Materials in Nature and Medicine. Cambridge University Press, 2010. ISBN: 9780521195447. [Preview with Google Books]
• Ashby, M. F., A. G. Evans, et al. Metal Foams: A Design Guide. Society of Automotive Engineers Incorporated, 2000. ISBN: 9780768005554. [Preview with Google Books]

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Lecture note files.

LEC #	TOPICS	SLIDES WITH HANDWRITTEN NOTES	SLIDES WITH TRANSCRIBED NOTES
1	Introduction and overview	Lecture 1: Introduction (PDF - 3.2MB)	No transcription version
2	Processing of cellular solids	Lecture 2: Processing (PDF - 2.3MB)	Lecture 2: Processing (PDF - 2.2MB)
3	Structure of sellular solids	Lecture 3: Structure (PDF - 3.9MB)	Lecture 3: Structure (PDF - 1.8MB)
4	Honeycombs: In-plane behaviour	Lecture 4: Honeycombs: In-plane (PDF - 6.2MB)	Lecture 4: Honeycombs: In-plane (PDF - 3.4MB)
5	Honeycombs: Out-of-plane behaviour	Lecture 5: Honeycombs: Out-of-plane (PDF - 2.0MB)	Lecture 5: Honeycombs: Out-of-plane (PDF)
6	Natural honeycombs: Wood, cork	Lecture 6: Wood (PDF - 4.1MB) Lecture 6: Cork (PDF - 4.1MB)	Lecture 6: Wood (PDF - 1.8MB) Lecture 6: Cork (PDF - 3.3MB)
7	Foams: Linear elasticity, strength, densification, fracture	Lecture 7: Foams (PDF - 7.1MB)	Lecture 7: Foams (PDF - 6.3MB)
8	Foams: Mictrostructural design, lattice materials, property charts	Lecture 8: Foam design (PDF - 4.2MB)	Lecture 8: Foam design (PDF - 3.9MB)
9	Foams: Thermal properties	Lecture 9: Thermal properties (PDF - 3.0MB)	Lecture 9: Thermal properties (PDF - 2.1MB)
10	Exam review	No notes	No notes
11	Trabelcular bone	Lecture 11: Trabecular bone (PDF - 3.9MB)	Lecture 11: Trabecular bone (PDF - 3.7MB)
12	Osteoporosis	Lecture 12: Osteoporosis (PDF - 5.0MB)	Lecture 12: Oseoporosis (PDF - 4.1MB)
13	Tissue engineering scaffolds: Processing and properties	Lecture 13: Tissue engineering scaffolds (PDF - 2.5MB)	Lecture 13: Tissue engineering scaffolds (PDF - 1.5MB)
14	Tissue engineering scaffolds case study: Osteochondral scaffold	Lecture 14: Osteochondral scaffold (PDF - 2.7MB)	No transcription version
15	Cell-scaffold interactions: attachment, morphology, contraction, migration, differentiation	Lecture 15: Cell-scaffold interactions (PDF - 4.1MB)	Lecture 15: Cell-scaffold interactions (PDF - 3.5MB)
16	Applications: Energy absorption	Lecture 16: Energy absorption (PDF - 6.4MB)	Lecture 16: Energy absorption (PDF - 5.1MB)
17	Applications: Sandwich panels	Lecture 17: Sandwich panels (PDF - 4.5MB)	Lectures 17: Sandwich panels (PDF - 3.2MB)
18	Natural sandwich structures Density gradients	Lecture 18: Natural sandwich structures (PDF - 1.6MB) Lecture 18: Density gradients (PDF - 7.8MB)	Lecture 18: Natural sandwich structures (PDF - 1.5MB) Lecture 18: Density gradients (PDF - 5.5MB)
19	Hierarchical structure and mechanics of plant materials Biomimicking	Lecture 19: Biomimicking (PDF - 1.8MB)	No transcription version
20	How I became a professor	No notes	No notes

Spring 2014 Guest Lectures