1) high efficiency deep grinding
高效深磨
1.
Experimental Investigation of High Efficiency Deep Grinding of Steel 40 Cr;
40Cr钢高效深磨磨削力试验研究
2.
Predicts the roughness of workpiece surface of engineering ceramic in high efficiency deep grinding by use of acoustic emission based on the method of BP neural network;
基于BP神经网络的高效深磨工程陶瓷工件表面粗糙度的声发射预测
3.
Investigation on the Characteristics and Formation Mechanisms of Grinding Force and Energy in High Efficiency Deep Grinding for Advanced Ceramics;
工程陶瓷高效深磨磨削力和磨削能的特征及形成机理研究
2) HEDG
高效深磨
1.
This paper investigates the heat penetration in high efficiency deep grinding (HEDG).
研究发现,在高效深磨(HEDG)加工中,工件的热渗透层很浅。
3) high speed deep grinding
高速深磨
1.
An acoustic emission(AE) test rig with signal acquisition virtual instrument system has been developed for engineering ceramics high speed deep grinding.
建立了工程陶瓷高速深磨中声发射的实验系统,自主开发了其中的声发射信号虚拟仪器采集系统。
4) high efficiency grinding
高效磨削
1.
The influence of different grinding parameters on the grinding surface roughness, grinding force, grinding efficiency of the grinding on ferrite ceramics is studied in this paper, based on this, high efficiency grinding of ferrite is also discussed.
通过试验研究了不同磨削参数对铁氧体的表面粗糙度、磨削力、磨削效率的影响规律,并在此基础上探讨了铁氧体的高效磨削技术。
2.
Taking grinding vibration and surface waviness of two engineering ceramics,namely alumina and PSZ,under high efficiency grinding as research target, definition and evaluation method of grinding surface waviness and the reason of surface waviness are briefly described.
以氧化铝和氧化锆两种工程陶瓷在高效磨削条件下的磨削振动和表面波纹度为研究对象,概述了磨削表面波纹度的定义和评价方法以及产生波纹度的原因,在超高速平面磨削实验台上进行磨削工艺试验,通过改变砂轮线速度、进给速度和磨削深度,分析了磨削参数对零件表面波纹度的影响。
5) hi-efficient and deep-grinding
高效深切
6) efficient ball mill
高效球磨机
补充资料:绝对可磨度(见矿石可磨度)
绝对可磨度(见矿石可磨度)
absolute grindability
Juedu一kemodu--一’一一一z,1」一二一」_L:1;十、、口犷绝对可磨度(absolute gr‘ndab‘l‘ty,兄刁石可磨度。
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