研究生物材料力学性质是生物力学的重要内容之一。
Mechanical property investigation of biological materials is one of the important branches of biomechanics.
本文通过有限元方法计算,分析了材料力学性质细观各向异性对温度场的影响。
In this paper, effects of material's mechanical character, microstructural anisotropy, on instantaneous temperature field is analyzed by means of the finite element method.
为解决路基土力学课题,分析时多采用与岩土材料力学性质相适应的弹性、粘弹性以及塑性理论。
Usually, Elastic, plastic and viscoelastic theories are used in FEM to solve soil mechanics problems of embankment.
原位取样测试结果表明,按照这种方法设计制作的模型,最终能达到模型中同一类型材料所要求的密度整体相对一致的效果,从而提高了物理模型中材料力学性质的稳定性。
The results of sampling taken from in-situ of the model test show that constructing model by this design method is available; and the density and property of the model material are uniform and stable.
采用表面化学和材料力学方法,探讨了支架的组成、结构、表面特性、力学性质及细胞相容性。
The composition, structure, surface characteristic, mechanical property, and cell compatibility of the scaffold have been studied by using surface chemistry and material mechanics testing methods.
采用表面化学和材料力学方法,探讨了支架的组成、结构、表面特性、力学性质及细胞相容性。
The composition, structure, surface characteristic, mechanical property, and cell compatibility of the scaffold have been studied by using surface chemistry and material mechanics testing methods.
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