High speed grinding and ultrahigh speed grinding is an advanced processing technique which can raise grinding efficiency, reduce work surface roughness and promote machining quality of the parts.
高速超高速磨削是提高磨削效率、降低工件表面粗糙度和提高零件加工质量的先进加工技术。
The resistivity and surface roughness of Indium tin oxide (ITO) films will affect the light-emitting efficiency and lifetime of the organic light-emitting diodes (OLED).
氧化铟锡(ito)膜的电阻率及表面粗糙度将影响有机电致发光器件(OLED)的发光效率及其使用寿命。
The promising super speed grinding technology can enhance grinding efficiency, improve surface quality of work piece and reduce its surface roughness.
超高速磨削可提高磨削效率、提高零件加工精度和工件表面粗糙度,是一项具有广阔应用前景的技术。
The diamond reamer has such advantages as higher machining precision, minimum surface roughness, higher efficiency and longer service life.
金刚石铰刀具有加工精度高、表面粗糙度小、加工效率高、寿命长等优点,能很好满足高精度内孔加工的要求。
Study of a very efficient and fast surface roughness of the wood-line detection system for the improvement of timber processing efficiency and product quality are of great significance.
研究一套高效、快速的木材表面粗糙度在线检测系统,对提高木材加工的生产效率和产品质量都具有重要的意义。
Based on the study of machine mechanism of PMD EDM, its rough machine efficiency and rough machine surface roughness are experimentally researched.
在对混粉电火花加工机理进行系统研究的基础上,对混粉电火花粗加工中的加工效率和加工表面粗糙度进行了实验研究。
The indexes of interpolation operation affect not only the profile precision and surface roughness of the workpiece, but the maximal marching velocity and manufacture efficiency of the machine.
插补运算的指标影响着工件的轮廓精度和表面粗糙度,并且影响机床的最大进给速度和生产效率,所以采用高效的插补算法和控制策略可提高加工精度和生产效率。
Polishing tool paths were constructed to evenly cover a 3-d free-form surface defined within a 2-d convex domain to reduce surface roughness and improve efficiency.
为了减小抛光加工的表面粗糙度和提高效率,构建抛光工具路径并均匀覆盖于三维曲面上,曲面的定义域为任意二维凸区域。
The structure, material, specific surface area and roughness of bio media are the important factors influencing the efficiency of in situ bio film technique.
填料的结构、材质、比表面积及粗糙度等是影响原位生物膜技术的关键因素。
The structure, material, specific surface area and roughness of bio media are the important factors influencing the efficiency of in situ bio film technique.
填料的结构、材质、比表面积及粗糙度等是影响原位生物膜技术的关键因素。
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