| scholarly article | Q13442814 |
| P356 | DOI | 10.1007/BF02223298 |
| P698 | PubMed publication ID | 597746 |
| P2093 | author name string | W. C. Hayes | |
| S. Saha | |||
| P2860 | cites work | The compressive properties of single osteons | Q69855171 |
| Comparison of the mechanical properties of both the primary and haversian bone tissue | Q72635155 | ||
| [Relations between the processes of reconstruction and distribution of minerals in the bones. I. Studies conducted with the absorption of roentgen rays] | Q73380533 | ||
| Studies on x ray absorption and diffraction of bone tissue | Q76137662 | ||
| Relations between the microscopic structure and tensile strength of human bone | Q78538680 | ||
| The relation of microscopic mineralization to intrinsic bone strength | Q79701872 | ||
| Differences in the tensile strength of bone of different histological types. | Q42554984 | ||
| Relations between the fatigue life and histology of adult human cortical bone | Q43409553 | ||
| An approach to the mechanical properties of single osteonic lamellae | Q43480807 | ||
| Relations among mechanical properties, collagen fibers, and calcification in adult human cortical bone | Q46284509 | ||
| The mechanical consequences of variation in the mineral content of bone | Q46286385 | ||
| Relation of collagen fiber orientation to some mechanical properties of human cortical bone | Q47963346 | ||
| Factors Affecting the Determination of the Physical Properties of Femoral Cortical Bone | Q58076348 | ||
| The effects of strain rate, reconstruction and mineral content on some mechanical properties of bovine bone | Q66923257 | ||
| Fatigue life of compact bone—I effects of stress amplitude, temperature and density | Q67435543 | ||
| Fatigue life of compact bone—II. Effects of microstructure and density | Q67444583 | ||
| Tensile impact properties of human compact bone | Q67444591 | ||
| P433 | issue | 1 | |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | microstructure | Q1498213 |
| P304 | page(s) | 65-72 | |
| P577 | publication date | 1977-12-01 | |
| 1977-12-14 | |||
| P1433 | published in | Calcified tissue research | Q26842075 |
| P1476 | title | Relations between tensile impact properties and microstructure of compact bone | |
| P478 | volume | 24 |
| Q70403143 | A hypothetical mechanism for the stimulation of osteonal remodelling by fatigue damage |
| Q35189581 | A rate-dependent microcrack-bridging model that can explain the strain rate dependency of cortical bone apparent yield strength |
| Q38364893 | Bone's Material Constituents and their Contribution to Bone Strength in Health, Disease, and Treatment. |
| Q39680976 | Density variation in the humeral cortex ofMacaca |
| Q39958015 | Fracture surface analysis to understand the failure mechanisms of collagen degraded bone |
| Q39669908 | Noninvasive measures of bone bending rigidity in the monkey (M. nemestrina) |
| Q39686703 | Patterns of variability in mineralization of the primate femoral diaphysis |
| Q46458645 | Spatial variation in mandibular bone elastic modulus and its effect on structural bending stiffness: A test case using the Taï Forest monkeys |
| Q71614029 | Tensile properties of antler bone |
| Q47890915 | The effect of strain rate on the mechanical properties of human cortical bone |
| Q45107549 | The influence of bone morphology on fracture toughness of the human femur and tibia |
| Q34984551 | The power of the claw |
| Q44173864 | The response of pediatric ribs to quasi-static loading: mechanical properties and microstructure |
| Q99710969 | Ultrasounds could be considered as a future tool for probing growing bone properties |
Search more.