abrasive stone
英 [əˈbreɪsɪv stəʊn]
美 [əˈbreɪsɪv stoʊn]
网络 石头; 油石; 磨石
双语例句
- Brazing of Diamond Abrasive Processing Stone Wear and Technological Parameters Optimization
钎焊金刚石磨具加工石材的磨损和工艺参数优化 - Rational Interval of Grit Size of Abrasive Segments for Stone Calibrating and Appropriate Surface Roughness of Stone before Polishing
石材加工磨块粒度合理间隔及适宜抛前粗糙度 - This paper analyses the mechanism of abrasive water jet cutting stone based on experiment results, and discusses the influence of cutting parameters on cutting deepness. Meanwhile, the cutting technological parameters are optimized.
依据实验结果,探讨磨料水射流技术切割石材的机理,分析切割工艺参数对切割深度的影响,并将切割工艺参数优化。 - Secondly, a motion and a cutting model of abrasive stone superfinishing are built respectively, and optimal process parameters and conditions are acquired.
其次,建立了油石超精加工的运动模型和切削模型,对滚子表面形貌进行三维模拟,并计算出油石超精加工的切削量,获得最优加工工艺参数和条件。 - Rational Proportioning of Compositions of Oxychloride Abrasive Products Used for Stone Working and the Wear Mechanism of the Same
加工石材用菱苦土磨具的配比选择及磨损机理 - Application of Abrasive Stone Superfinishing to Machining Locomotive and Vehicle Components
油石超精技术在机车车辆零件加工中的应用 - Abrasive Water-jet Machining Techology and it's Application in Stone Machining
将磨料水射流切割技术用于石材加工 - At the same time it is clearly shown that the topography of the roller surface and abrasive stone cutting quantity are affected by the rotational speed of the roller, the vibration frequency and altitude of the abrasive stone and so on.
同时直观地表示出滚子转动的圆周线速度、油石振动频率、油石振动振幅等因素对滚子外圆表面形貌和油石切削量的影响。 - The theory proof is provided for abrasive stone superfinishing technique through computer simulation, and cutting factors and conditions of better surface machining quality are obtained, and the application prospect of the abrasive stone superfinishing technique is expanded.
通过计算机仿真为油石超精加工技术提供了理论依据,获得了达到较好表面加工质量的切削因素和条件,拓展了油石超精加工技术的应用前景。 - With the analysis of abrasive grain motion, this dissertation produced the material removing rate theoretical formula of power ultrasonic honing. The correlation experimental showed that the bigger the oil stone particle, the higher the grinding efficiency.
并在分析功率超声振动珩磨的磨粒运动的基础上,给出功率超声珩磨材料去除率的理论公式。