1.
ceramic high heavy grinding wheel
陶瓷高强力磨削砂轮
2.
Grinding Mechanics of Plunge Cut Surface Grinding with Abrasive Belt
强力砂带平面磨削的磨削机理(上)
3.
The investigation of surface quality and grinding forces of grinding processing of particle reinforced matrix aluminium composites
颗粒增强铝基复合材料磨削加工表面质量与磨削力研究
4.
Research and Application of Heavy Belt-grinding in Manufacturing of 40Mn2 High Strength Structure Steel;
40Mn2高强度结构钢强力砂带磨削研究及应用
5.
The Experimental Research and Analysis of the Performance of Heavy Belt-grinding Based on Optimization Method;
基于最优化方法的强力砂带磨削性能试验研究
6.
Characteristic Investigations on Grinding Force and Specific Grinding Energy of High Efficiency Deep Grinding for TC4 Titanium Alloy
TC4钛合金高效深磨磨削力及比磨削能特征研究
7.
Research on Grinding Hardening of Middle Carbon Steel by Grinding Strengthen Technology
磨削强化技术对中碳钢磨削淬硬效果的研究
8.
Research on High-speed Heavy Wheel Grinding in Nuclear Power High-pressure Vessel Shell Weld;
核电高压容器壳体焊缝高速强力砂轮磨削技术研究
9.
Research on Heavy Abrasive Belt Grinding and Its Application in Machining of Nuclear Power High Pressure Vessel
核电高压容器强力高效砂带磨削方法及应用研究
10.
The Design of the Engineering Ceramic Grinding Equipment and the Research of the Grinding Force Control
工程陶瓷磨削装置设计及磨削力控制研究
11.
Adaptive control of grinding force in grinding process of planar cam
平面凸轮磨削过程磨削力的适应控制研究
12.
Grinding Force with Adaptive Control of CNC Cams Grinder;
数控凸轮磨床磨削力适应控制的研究
13.
The first principal normal stresses can lead to grinding crack which generates behind the abrasive grain in the plane perpendicular to grain motion.
在磨粒后方,受第一主应力的作用,产生垂直磨削方向的磨削裂纹。
14.
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
15.
Research on Undeformed Chip Thickness and Unit Grinding Force during Surface Grinding of 55 Steel
55钢平面磨削中未变形磨屑厚度及单位磨削力的研究
16.
Experiment on Grinding Hardening Effect of 48MnV Micro-alloyed Steel;
微合金钢48MnV磨削强化工艺试验研究
17.
Effect of Grinding Induced Damage on Bending Strength of RBSiC
磨削表面损伤对RBSiC弯曲强度的影响
18.
The Studies on Evaluation of Ground Surface Mechanical Damage of Ceramic and Grinding Based on Crack Damage Control;
陶瓷磨削表面力学损伤评价及裂纹损伤可控磨削研究