Sacrificial bonds and hidden length dissipate energy as mineralized fibrils separate during bone fracture
University of California, Santa Barbara · Institute for Collaborative Biotechnologies · +2 more institutions
Indexed incrossrefpubmed
Abstract
No abstract available for this paper.
Citation impact
924
total citations
- FWCI
- 21.31
- Percentile
- 100%
- References
- 29
Citations per year
Authors
11- GEGeorg E. FantnerCorresponding
University of California, Santa Barbara
- THTue Hassenkam
University of California, Santa Barbara
- JHJohannes H. Kindt
University of California, Santa Barbara
- JCJames C. Weaver
University of California, Santa Barbara, Institute for Collaborative Biotechnologies
- HBHenrik Birkedal
University of California, Santa Barbara
Topics & keywords
Topics
Keywords
- Fibril
- Materials science
- Collagen fibril
- Microstructure
- Bone matrix
- Biophysics
- Matrix (chemical analysis)
- Molecule
UN Sustainable Development Goals
- Affordable and clean energy
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