- 更多网络例句与负偏斜度相关的网络例句 [注:此内容来源于网络,仅供参考]
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Engine, this paper found out that the antigalling abilities for parts being tested although quite smooth, even with quenched and ground surfaces were not too high, while the antigalling abilities were quite higher for those surfaces more rougher than the former but possess fairly big negative contour skewness RSK and considerable large mean spacing Sm of profile micro-inequality.
本文通过SRV 试验、Timken 试验和发动机挺杆的台架试验,发现了试件尽管很光滑,甚至是淬硬后精磨的表面的抗擦伤能力并不高,而粗糙度比前者高,但具有相当大的负轮廓偏斜度Rsk ,且具有相当大的轮廓微观不平度平均间距Sm 的表面具有较高的抗擦伤能力,这是由于它们具有较好支承面及众多"微油池"有利于润滑的结果。
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On the basis of previously research, this paper re-probe into the mechanism of electro-chemist mechanical manufacturing process, making the rational technological parameter, and developing the manufacturing equipment. Through a lot of technology tests, get a lot of labratory data, accordingly, researched the surface feature of the electro-chemist manufacturing process, and deeply discussed its influence on the work piece feature. The last result is that: the electro-chemist mechanical manufacturing process can reduce the low-frequency component significantly, but on high-frequency component, it has little influence, having obviously positive pole flat effect. After manufacture, the tip parts on the surface of the work piece is cut off, there is micro "high land" shape, the parameter for surface roughness is reduced a lot, the surface outline of the work piece is negative, the bearing length rate is cliffy. Also the surface quality of the work piece is improved. This can help to avoid changing the shape, improve the feature of rub, gear and reduce the time to suit. This would also ensure the precision and result in a longer work piece life.
在以前研究的基础上,本论文重新探讨了电化学机械复合光整加工工艺的机理,确定了较合理的工艺参数,对电化学机械复合光整加工设备进行了改进,通过工艺实验广泛地搜集了大量实验数据,依据实验数据,多角度地研究了电化学机械复合光整加工的表面形貌特点,并且从理论上深入讨论了电化学机械复合光整加工表面形貌对工件工作性能的影响,最后得出的结论为:电化学机械复合光整加工对工件原始表面的低频成分有较大程度的降低,而对高频成分影响较小,有明显的阳极整平作用,被加工工件表面的尖峰状凸起被去除,工件表面呈现出微观&高原型&,表面轮廓不平度高度特性参数大幅度降低,工件表面轮廓分布集中,且呈负偏态,轮廓偏斜度为负值,轮廓支承长度率曲线陡峭,工件的表面质量得到综合改善,这对提高零件的抗接触变形能力、改善摩擦、磨损性能、降低工件的磨合时间、提高工件的精度保持性、延长工件的寿命均有利。
- 更多网络解释与负偏斜度相关的网络解释 [注:此内容来源于网络,仅供参考]
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negative skew distribution:负偏态分布,负偏斜分布
negative signed rank 负符号等级 | negative skew distribution 负偏态分布; 负偏斜分布 | negative skewness 负偏态; 负偏斜度; 负向偏态; 负向偏斜度
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Negative skin friction:表面负摩阻
negative skewness 负偏态; 负偏斜度; 负向偏态; 负向偏斜度 | negative skin friction 表面负摩阻 | negative slip 负转差率