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C M Agrawal

Showing results (1-10 of 53) with videos related to

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Journal of Biomedical Materials Research|April 1, 1997
Interfacial fracture toughness of tissue-biomaterial systemsX Wang, C M Agrawal
Journal of Biomedical Materials Research|January 1, 1996
Fracture toughness of bone using a compact sandwich specimen: effects of sampling sites and crack orientationsX Wang, C M Agrawal
Journal of Biomedical Materials Research|November 14, 2000
A mixed mode fracture toughness test of bone-biomaterial interfacesX Wang, C M Agrawal
Investigative Radiology|December 1, 1992
Deformation characteristics of a bioabsorbable intravascular stentC M Agrawal, H G Clark
Journal of Biomedical Materials Research|July 1, 1997
Technique to control pH in vicinity of biodegrading PLA-PGA implantsC M Agrawal, K A Athanasiou
Journal of Biomedical Materials Research|March 20, 2001
Biodegradable polymeric scaffolds for musculoskeletal tissue engineeringC M Agrawal, R B Ray
Calcified Tissue International|February 8, 2003
Age dependence of in situ termostability of collagen in human boneX Li, C M Agrawal, X Wang
Journal of Applied Biomaterials : an Official Journal of the Society for Biomaterials|January 1, 1994
Use of a compact sandwich specimen to evaluate fracture toughness and interfacial bonding of boneX Wang, J Lankford, C M Agrawal
Bio-Medical Materials and Engineering|July 6, 2007
Use of compact sandwich specimen to determine the critical strain energy release rate of boneS P Paruchuru, X Wang, C M Agrawal
Tissue Engineering|November 3, 2009
The effects of dynamic compressive loading on biodegradable implants of 50-50% polylactic Acid-polyglycolic AcidD E Thompson, C M Agrawal, K Athanasiou
Pageof 6

Showing results (1-10 of 53) with videos related to

Sort By:
Pageof 6
Journal of Biomedical Materials Research|April 1, 1997
Interfacial fracture toughness of tissue-biomaterial systemsX Wang, C M Agrawal
Journal of Biomedical Materials Research|January 1, 1996
Fracture toughness of bone using a compact sandwich specimen: effects of sampling sites and crack orientationsX Wang, C M Agrawal
Journal of Biomedical Materials Research|November 14, 2000
A mixed mode fracture toughness test of bone-biomaterial interfacesX Wang, C M Agrawal
Investigative Radiology|December 1, 1992
Deformation characteristics of a bioabsorbable intravascular stentC M Agrawal, H G Clark
Journal of Biomedical Materials Research|July 1, 1997
Technique to control pH in vicinity of biodegrading PLA-PGA implantsC M Agrawal, K A Athanasiou
Journal of Biomedical Materials Research|March 20, 2001
Biodegradable polymeric scaffolds for musculoskeletal tissue engineeringC M Agrawal, R B Ray
Calcified Tissue International|February 8, 2003
Age dependence of in situ termostability of collagen in human boneX Li, C M Agrawal, X Wang
Journal of Applied Biomaterials : an Official Journal of the Society for Biomaterials|January 1, 1994
Use of a compact sandwich specimen to evaluate fracture toughness and interfacial bonding of boneX Wang, J Lankford, C M Agrawal
Bio-Medical Materials and Engineering|July 6, 2007
Use of compact sandwich specimen to determine the critical strain energy release rate of boneS P Paruchuru, X Wang, C M Agrawal
Tissue Engineering|November 3, 2009
The effects of dynamic compressive loading on biodegradable implants of 50-50% polylactic Acid-polyglycolic AcidD E Thompson, C M Agrawal, K Athanasiou
Pageof 6