| 1. | The ferrograpy analysis technology of debris group
磨屑群铁谱分析技术 |
| 2. | Multiple fractal of fragmentizing process and distribution of wear particles
磨屑破碎及分布的多重分形模拟 |
| 3. | Recirculating alloy raw material of high speed steel grinding dust smelting by silicon thermit process
硅热法冶炼高速钢磨屑再生合金原料 |
| 4. | Analysis and computation on dynamic characteristics of a new - style hydrodynamic journal bearing
含磨屑粗糙表面接触滑动摩擦副温度场的计算 |
| 5. | Emcut 101 promote easy honing , fast stock removal , extended honing stone life and fine surface finishes
Emcut 101能使推磨更加容易,磨屑快速清除,达成延长磨石寿命与细致完工表面的效果。 |
| 6. | It is not allowed to clean up cooling fluid and abrasive dust or to replace work - piece before the grinding wheel comes to a standstill
砂轮未完全处于静止状态时,不许清理冷却液,磨屑或更换工件。 |
| 7. | Scanning electron microscopy ( sem ) was employed to examine the worn surfaces ^ shape of wear debris ^ dispersion of nano - a ^ os and wear mechanism
采用扫描电子显微镜观察、分析磨损表面形貌,磨屑形状,纳米粒子分布情况及磨损机理。 |
| 8. | Emcut 103 compounded well - balanced extreme pressure additives system to achieve rapid heat dissipation and chip removal performance , but not cause any staining problem
Emcut 103所含平衡良好的极压添加剂系统,能达到快速散热与磨屑清除的性能,但却不会造成任何油斑的问题。 |
| 9. | Wear particle ' s automatic recognition and analysis is one of the most important but difficult key problem in the realization of automatic machine wear monitoring and intelligent diagnosis system
机器设备摩擦副磨屑微粒(磨粒)是判断运行中摩擦副磨损状态的主要依据,而磨粒的定量分析描述与自动识别,长期以来一直是设备磨损状态监测与故障诊断信息流程中最为复杂和亟待解决的关键问题。 |
| 10. | Grinding wheel continues with an infinite number of hard , sharp and refractory grits on edge surface at a high speed of swing operation to cut and grind over the surface of work piece , and unceasing self - sharpening grains and pore continue to grind a tool for every kind of material
砂轮是经由高速回转运作中,以其在外缘表面植无数上千万之硬锐耐温之小磨粒连续在工作物表面切削磨除,且不断的自生锐利颗粒与磨屑空隙气孔,继续对各种材料做磨削工作的一种研磨工具。 |
