1.
Experimental Research of the Machining Parameters for Super-hard Tool Material WEDM;
超硬刀具材料WEDM加工参数的试验研究
2.
The cutting tool must be harder than the material to be cut.
切削刀具必须比要切削的材料硬。
3.
Oxidation Resistance of Cemented Carbide Tools
硬质合金刀具材料的抗氧化性能研究
4.
Some of the hardest tool materials lack strength because they are too Brittle.
有些最硬的刀具材料由于太脆而缺乏强度。
5.
Strength in cutting-tool material is not always proportional to hardness.
切削刀具材料的强度并不都是与硬度成正比的。
6.
Research on Sintering Technology of Nanostructured WC-10Co Hardmetal;
纳米WC-10Co硬质合金刀具材料烧结技术研究
7.
A Study on High Temperature Adhesives of Resin Bond Superabrasive Tools;
超硬材料树脂磨具高温结合剂的研究
8.
Research on Improving the Hardness and the Abrasion Resistance of YT5 Cemented Carbide with Nickel Binder as Cutting Tools;
提高Ni代Co YT5硬质合金切削刀具材料硬度与耐磨性的研究
9.
Single Crystal Diamond Tool Wear Mechanism during Ultra-precision Turning of SiC_p/2024Al Metal Matrix Composites
SiC_p/2024Al复合材料超精密车削刀具磨损机理研究
10.
Hence, the hardness of the tool and the degree to which it remains its hardness at high temperature are important in the selection of a cutting-tool material.
因此,刀具的硬度和它在高温下所能保持的硬度是选择切削刀具材料时的重要因素。
11.
Study on the Cemented Carbide Tools with Fe and Ni Binder Phase for Steel Cutting;
用于钢材切削加工的Fe、Ni代Co硬质合金刀具材料的研究
12.
Study on Heat-resistant Resin Binder for Superabrasives;
超硬材料磨具用耐高温树脂结合剂的研究
13.
Condition of Teaching, Researchand Production of VitrifiedSuperabrasives in China;
我国超硬材料陶瓷结合剂磨具教科产状况浅析
14.
Reaserch on ELID Gringding Mecha-Nism and Cutting Performance of Nano Cemented Carbide
纳米硬质合金刀具材料的ELID磨削机理及其切削性能研究
15.
Selection of Optimal Cutting Tools for Composites Material;
复合材料用剪切刀具材料的优化选择
16.
The Study of Compactibility of Mixture and Tool Material of Ultra Fine Ti(CN) Base Cermets;
超细Ti(CN)基金属陶瓷粉末成形性能及刀具材料的研究
17.
Study on Form of Tool Wear with Ultrasonic Vibration Cutting SiC_P/Al Composites
超声振动切削SiC_P/Al复合材料的刀具磨损形态研究
18.
Single Crystal Diamond and Polycrystalline Diamond Tools′ Applicability to Ultra-precision Turning of SiC_p/Al Composites
SCD及PCD刀具超精密车削SiC_p/2024Al复合材料适应性对比研究