Relation between mechanical stiffness and vibration transmission of fracture callus: an experimental study on rabbit tibia. Read more about Relation between mechanical stiffness and vibration transmission of fracture callus: an experimental study on rabbit tibia.
Synthesis and mechanical properties of interpenetrating networks of polyhydroxybutyrate-co-hydroxyvalerate and polyhydroxyethyl methacrylate. Read more about Synthesis and mechanical properties of interpenetrating networks of polyhydroxybutyrate-co-hydroxyvalerate and polyhydroxyethyl methacrylate.
Assessment of mineral density and atomic content of fracture callus by quantitative computerized tomography. Read more about Assessment of mineral density and atomic content of fracture callus by quantitative computerized tomography.
Cortical bone tissue resists fatigue fracture by deceleration and arrest of microcrack growth. Read more about Cortical bone tissue resists fatigue fracture by deceleration and arrest of microcrack growth.
Fracture resistance of gamma radiation sterilized cortical bone allografts. Read more about Fracture resistance of gamma radiation sterilized cortical bone allografts.
Comments on acoustic emission visualization of bone cement fatigue locations. Read more about Comments on acoustic emission visualization of bone cement fatigue locations.
Hierarchical relationship between bone traits and mechanical properties in inbred mice. Read more about Hierarchical relationship between bone traits and mechanical properties in inbred mice.
Aging of microstructural compartments in human compact bone. Read more about Aging of microstructural compartments in human compact bone.
Relationship between damage accumulation and mechanical property degradation in cortical bone: microcrack orientation is important. Read more about Relationship between damage accumulation and mechanical property degradation in cortical bone: microcrack orientation is important.
Fracture mechanics of cortical bone tissue: a hierarchical perspective. Read more about Fracture mechanics of cortical bone tissue: a hierarchical perspective.
