Conclusion: The lower elastic modulus Titanium alloys is more feasible biomechanical compatibility for implant materials.
结论:低弹性模量的钛合金材料作为种植材料时具有更好的生物力学相容性。
The mechanical analysis showed the biomechanical compatibility was also improved by adding BGC into nanophase titania ceramic.
结果表明:纳米氧化钛陶瓷复合材料的生物活性、力学性能、蛋白吸附能力随。
Objective: To study biomechanical influence and relations between the elastic modulus and mechanical compatibility for prosthesis of different stiffness after replacement.
目的:研究不同刚度的股骨头假体置换后的生物力学影响及材料的弹性模量与力学相容性关系。
Objective: To study biomechanical influence and relations between the elastic modulus and mechanical compatibility for prosthesis of different stiffness after replacement.
目的:研究不同刚度的股骨头假体置换后的生物力学影响及材料的弹性模量与力学相容性关系。
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