1) abrasive belt
砂磨带
2) Belt grinding
砂带磨削
1.
In the belt grinding for cam a method of by adding medial mechanism to avoid direct contacting of conjugate cam and sand belt so as to prolong conjugate cam's life is put forward in this paper which can solve the problem that conjugate cam is easy to wear.
根据凸轮砂带磨削技术中共轭轮易磨损的情况,提出了一种增加中间摆动机构,避免共轭轮与砂带直接接触,从而增加共轭轮工作寿命的方法,并给出了该机构共轭轮廓形计算的方法。
2.
Belt grinding shows excellent characteristics in machining hard and brittle materials.
砂带磨削在硬脆材料加工中具有优良的性能。
3) abrasive belt grinding
砂带磨削
1.
Network Measurement and Control System for Abrasive Belt Grinding Parameters Based on Virtual Instrument;
基于虚拟仪器的砂带磨削参数远程网络化测控系统
2.
Testing of a six-axis computer numberical control abrasive belt grinding machine based on free-form surfaces;
自由曲面六轴联动砂带磨削机床试验
3.
Study on the Grinding Capability of 0Cr17Ni4Cu4Nb of Gas Turbine Blades Based on Abrasive Belt Grinding;
燃气轮机叶片材料0Cr17Ni4Cu4Nb砂带磨削性能研究
4) wearing of abrasive belt
砂带磨损
5) belt-grinding
砂带磨削
1.
Methods of measurement and calculation on the surface tolerance of blade is introduced, and the formula about surface tolerance and positive pressure of belt-grinding is set up.
介绍了叶片型面误差的测量与计算方法,建立了误差值与叶片砂带磨削法向力之间的函数关系,通过使用UG/OpenAPI编程开发了磨削加工仿真模块并给出了叶片型面误差砂带磨削的仿真实例,对提高叶片砂带磨削数控编程的效率和叶片加工精度都有较强的指导意义。
6) belt grinding machine
砂带磨床
1.
The Structure Design of CNC Belt Grinding Machine on Turbine Vane
汽轮机叶片数控砂带磨床结构设计与分析
2.
The paper shows operational principle of abrasive belt grinding machine,introduces applications of PLC in turntable abrasive belt grinding machine,completes the hardware connection diagram and program flow diagram,bring forward the system working size analysis and error compensation.
简要说明了砂带磨床的工作原理,介绍了可编程控制器在转台式平面砂带磨床中的应用,完成了硬件连线图及程序流程图,给出了系统加工尺寸精度分析及误差补偿,根据需要将变频器应用到控制系统中,并取得了良好的效果。
补充资料:环隙式砂磨机
分子式:
CAS号:
性质:砂磨机的一种。可以分为圆筒环隙式砂磨机和环隙式双锥形砂磨机等。克服了一般砂磨机粉碎和分散效率低等的缺点,将转子的直径增大,可以减少能量密度低的区域,供环隙内的能量密度均达到较高值,其平均能量密度为最大值的89%,从而提高粉碎和分散效率。
CAS号:
性质:砂磨机的一种。可以分为圆筒环隙式砂磨机和环隙式双锥形砂磨机等。克服了一般砂磨机粉碎和分散效率低等的缺点,将转子的直径增大,可以减少能量密度低的区域,供环隙内的能量密度均达到较高值,其平均能量密度为最大值的89%,从而提高粉碎和分散效率。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条