结果也表明,器件材料的不均匀性对丝的定位将有重要作用。
It shows also that nonuniformity of material will play an important role in locating the filament.
但是,该方法是有缺点的,因为在聚合物材料上形成的金属膜不均匀,与金属膜的粘附以及金属膜沉积的重现性差。
However, it has the disadvantages in that the metal film formed on the polymer materials is not uniform and adhesion with the metal film and the reproducibility for metal film deposition are inferior.
材料的能量耗散与材料的粘弹性和界面的不均匀性等因素有关。
The energy dissipation of material is related to some factors such as the viscoelasticity and the homogeneity in interface.
在路面结构设计中,综合考虑材料性质、路面结构的不均匀性可使设计更加符合实际工程的要求。
Considering the heterogeneity of material properties and pavement structure in pavement structure design can make the design be more fit to practical engineering.
由于化爆材料的不均匀性,其内部随机分布着硬质点。
Due to the asymmetry of explosive chemical material, there are many hard points scattered in its interior.
还讨论了材料各向异性、应变率敏感性、不均匀性及其幅度、惯性等因素对塑性失稳的影响。
The effects of anisotropy, strain rate sensitivity, imperfection and its amplitude and inertia on plastic instability are discussed.
作为聚合物填料,与基质材料的相容性差,分散不均匀,进而会影响复合材料的力学性能。
As a polymer filler, it has a poor compatibility with the polymer and unevenly disperses in the matrix thus affecting the mechanical properties of the composite.
实验证明这可能是一个误解,可能是因为冰箱内温度不均匀性、材料不同尤其是淀粉多少不同所引起。
Experiments prove that this may be a misunderstanding may be due to non-uniform temperature inside the refrigerator, different materials, in particular, caused by the different number of starch.
激光焊接过程是一个快速不均匀的热传导过程,由于激光与材料相互作用的复杂性,使得激光焊接质量难以保证。
The laser welding is a fast and uneven heat cyclical process. Because of complexity of the interactive between laser and material, it is very difficult to guarantee the quality of the laser welding.
由于多方面的原因,如:非线性因素、材料的不均匀性、阻尼机理的复杂性,再加上联结刚度难以确定等等,使得有限元计算的准确性受到限制。
Because various reason such as: Nonlinear, asymmetry of material, complexity of damping mechanism, and be hard to make certain of coupling, making a accurate calculating is subjected to restrictive.
细观统计结果表明,裂纹区域和邻近区域的密度要低于正常区域的密度,材料内部的疲劳损伤呈现不均匀性。
Statistical analysis of density field was quantified at mesoscale level, including interior, adjacent region, path of propagation of the crack and towards both sides of crack.
细观统计结果表明,裂纹区域和邻近区域的密度要低于正常区域的密度,材料内部的疲劳损伤呈现不均匀性。
Statistical analysis of density field was quantified at mesoscale level, including interior, adjacent region, path of propagation of the crack and towards both sides of crack.
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