1) comprehensive grounding
深磨法
1.
Suggestion is put forth that rough grouding plus comprehensive grounding is the way sharpening the edge of the cot.
通过生产实践,从铝衬胶管、轴承的选择要求到铝衬胶辊的套制、磨砺、微处理以及纺纱条干对比,提出一条最佳铝衬胶辊制作途径,并建议粗磨胶辊采用深磨法,以充分发挥铝衬胶辊纺纱的优势。
2) 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
3) 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。
4) 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。
5) Creep feed grinding
缓进深磨
6) deep grinding
大切深磨削
1.
In the study, two unsteady-state thermal models are presented for deep grinding based on the model of plane heat source moving obliquely along the surface of a semi infinite solid.
本文推导了基于半无限体表面移动倾斜面热源模型的大切深磨削非稳态温度场 ,通过计算 ,结果表明 :缓进给磨削温度达到似稳态温度所需时间比高效大切深磨削温度达到似稳态温度所需时间长得多 ,切深对工件已加工表面磨削温度和磨削弧区内工件表面磨削温度分布有重要的影
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。