1.
Development of the Intelligent Measurement and Control System for the JPM-1 Contact-fatigue Tribometer;
JPM-1型接触疲劳磨损试验机智能化测控系统的研究
2.
The main wear mechanisms are adhesion, diffusion and fatigue.
磨损机理主要是粘结磨损、扩散磨损以及疲劳磨损。
3.
rotary abrasive tester
旋转式磨料磨损试验机
4.
Fatigue-damage Machine of Crankshaft Based on the Technology of Virtual Instrument and Micro-resistance Measuring
采用虚拟仪器与电阻法的曲轴疲劳损伤试验机
5.
Schenick machine
谢尼克金属疲劳试验机
6.
endurance testing machine for torsion repeated
重复扭转疲劳试验机
7.
electro-hydraulic servocontrolled fatigue testing machine
电液伺服疲劳试验机
8.
reverse torsion fatigue testing machine
反向扭转疲劳试验机
9.
combined stress fatigue tester
复合应力疲劳试验机
10.
track impact fatigue testing machine
轨道冲击疲劳试验机
11.
direct stress fatigue machine
直接应力疲劳试验机
12.
rotating beam fatigue testing machine
旋转梁式疲劳试验机
13.
rotary bending tester
旋转弯曲疲劳试验机
14.
rotating bending fatigue machine
回转弯曲疲劳试验机
15.
fatigue testing machine for alternating torsion
交弯扭转疲劳试验机
16.
endurance testing machine for repeated torsion
反复扭转疲劳试验机
17.
reversed bending fatigue machine
反复弯曲疲劳试验机
18.
The bulk deformation, fatigue and plough were the major wearing mechanism.
结果表明:合金的主要磨损机制是体积塑性变形、沟效应和疲劳磨损。