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1.
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
2.
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
3.
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
4.
ON THE TEACHING REFORM AND PRACTICE OF THE BASIC COURSES FOR ABRASIVE AND SUPER-HARD MATERIALS SPECIALITY;
磨料磨具与超硬材料专业基础课程教学改革与实践
5.
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
6.
Studies on Strength and Toughness of Ultra-high Hardness,Wear-resistance and Cracking-resistance Hardfacing Materials;
超高硬度耐磨抗裂堆焊材料的强韧化研究
7.
Research on Ultra-precision Grinding of Hard and Brittle Material Si_3N_4 with Electrolytic In-process Dressing (ELID);
硬脆材料氮化硅陶瓷的ELID超精密磨削技术研究
8.
Test Research of Grinding and Drilling with Ultrasonic Vibration on Hard and Brittle Glasses
在硬脆材料玻璃上超声振动研磨钻孔试验研究
9.
Dressing of diamond grinding wheels using rotary diamond dresser
旋转金刚石修整工具修整超硬磨料砂轮的研究
10.
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
11.
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
12.
Control System for Spindle Motor Adjusting Speed of EDG Nonconducting Superabrasives
非导电超硬材料电火花磨削主轴电机调速控制系统
13.
Variable Frequency Adjusting Speed Circuit Design for Spindle Motor of EDG Nonconducting Superabrasives
非导电超硬材料电火花磨削主轴电机变频调速电路的设计
14.
Research and Establishment on Ultrasonic Vibration Grinding Experiment System of Hard Brittle Materials
硬脆材料超声振动磨削实验系统的建立及其实验研究
15.
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
16.
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
17.
Study on Low Melting Point and High Strength Vitrified Bond Superhard Grinding Tools;
低熔高强陶瓷结合剂超硬磨具的研究
18.
Development of a new nano-vitrified bond for superhard tools
纳米陶瓷结合剂超硬磨具的制造工艺