1.
Study on Tribological Behavior and Tool Life in Ti6Al4V High Performance Machining
钛合金Ti6Al4V高效切削刀具摩擦磨损特性及刀具寿命研究
2.
Research of Tools Selection and Cutting Technology in High Speed Cutting;
高速切削中的刀具选择和切削技术的研究
3.
Research on optimization of cutter parameter and cutting specifications to high-chromium cast iron machining
高铬铸铁切削中刀具及切削用量优化研究
4.
High-speed Processing of Dry Cutting,Hard Cutting Tool Applications Technical Analysis
高速加工中干切削、硬切削刀具的应用技术分析
5.
Research on the Cutting Tool Technology in High-speed Milling
高速铣削刀具在高速切削加工中的应用
6.
A cutting tool is wear-resistant if it resists abrasion at the cutting edge and along the tool face. Wear resistance improves as cutting tool hardness increases.
如果切削刀具的刃口和刀面耐磨,刀具就不易磨损。切削刀具的硬度越高,耐磨性就越好。
7.
Study on High Performance Nano-scale Ceramic Tool Material and Its Cutting Performance;
高性能纳米陶瓷刀具及切削性能研究
8.
A Study of Cutting Tool Way In Numerical Control High-Speed Cutting Processing;
数控高速切削加工中刀具路径的研究
9.
Research and Application on High-speed Hard and Dry Cutting with PCBN Tool
PCBN刀具高速硬态干切削的研究及应用
10.
Tool Material Selection in High-speed Machining
高速切削加工中刀具材料的合理选择
11.
Research on Cutting Performance and Wear Failure Mechanism of Graded Coating HSS Tools;
梯度涂层高速钢刀具切削性能及磨损失效机理研究
12.
Improve Automobile Industry Productivity and Safety By Developing Cutting Tool
通过切削刀具的研发提高汽车工业生产效率和安全性
13.
Research on High Speed Milling Forces and Cutter Path Optimizing;
高速铣削切削力变化及刀具轨迹优化研究
14.
So improvements of the obdurability of the tool tips and cutting edges are very important to better the cutting property of the end mill.
刀尖是刀具中最薄弱的环节,提高刀尖及切削刃的强韧性对改善刀具切削性能尤其重要。
15.
Study on the Cutting Performance of Multicomponent Coated Hss Tools--Wear Rule and Failure Mechanism Under Dry Drilling;
多元复合涂层高速钢刀具切削性能研究——干式钻削时的磨损规律和失效机理
16.
Principles of Metal Cutting & Cutters
金属切削原理及刀具
17.
Finite Element Analysis of the Influence of Cutting Edge Radius on the Size Effect in Micro Cutting
刀具切削刃钝圆对微细切削加工尺寸效应影响的有限元模拟研究
18.
Forecast of the Chip Flow Angle Based on the Single-edge Tool and Equivalent Cutting Edge
基于单尖刀具和等效切削刃法的流屑角预报