asperities
英 [æsˈpɛrɪtiz]
美 [əˈspɛrɪtiz]
n. (尤指语言、态度)粗暴,严厉
asperity的复数
双语例句
- The larger the surface roughness and the sharper the asperities, the greater the asperity contact load.
表面越粗糙、表面凸峰越尖锐,微峰接触载荷则越大。 - She was oppressed by an abiding sense for the asperities and inequalities of society.
她深受压抑,长期因社会的冷酷和不公深受困扰。 - It is noted that there is a thin fluid film between the loaded asperities and the wafer being polished in CMP process, thereby a flow system with nano scale film is formed in.
在简述化学机械抛光技术的基础上,提出化学机械抛光过程中,受载的粗糙峰和被抛光的晶片表面之间存在一纳米量级的薄流体膜,形成了纳米级薄膜流动系统。 - Numerical results reveal that the existence of single asperities can lead pressure to change drastically and film thickness to become thin in the vicinity of the asperities.
结果表明,单粗糙峰造成接触区对应位置油膜压力剧烈变化而膜厚变薄。 - However, at higher angle of tooth-shaped asperities and under higher normal stress, the failure model II is found, which is in first tension but final shear failure.
在较高的法向应力下,含起伏角较高齿形节理面的非贯通节理岩体可能出现破坏模式II(先张拉后剪切破坏模式)。 - The influence of density distribution and height of the asperities on nonlocal friction is also studied here. A experimental system for friction test is designed.
分析了微凸体分布密度不同、微凸体高度不同时,非局部摩擦的影响变化规律。 - The relationship between sliding friction force and contacting condition of rough surfaces was developed according to kinematics and dynamics analysis of two contacting asperities.
从一对微凸体的接触力学和运动学分析出发,建立了非流体动力润滑条件下粗糙表面滑动摩擦阻力与粗糙表面接触状态间的关系。 - The highest temperature of asperities is much higher than that of worn plane, which is one of the main factors in leading to stress graphitization on worn surface.
摩擦过程中粗糙表面微凸体的最高温度远大于摩擦平面,瞬时的高温和摩擦剪切力的作用使微凸体被应力石墨化。 - In microscope scale, a rough surface can be regarded as a series of asperities with certain stochastic distributions of asperity height, size and geometry.
从微观角度来看,粗糙表面可以近似地认为是由一系列高度、大小以及几何形状服从一定分布规律的微型粗糙峰所组成,因此粗糙峰之间的接触问题也就成为研究粗糙表面接触问题的关键。 - Undoubtedly, these asperities will have remarkable influence on surface friction and subsurface stress of the contact area.
齿面粗糙峰的存在无疑会对齿面摩擦力和轮齿接触区次表面应力分布产生重大影响。