纤维增强复合材料的切削加工表面结构和粗糙度与切削方向密切相关。
The machined surface texture and roughness of composites reinforced by fiber are closely related to the cutting direction.
纤维增强复合材料的切削加工表面结构和粗糙度与切削方向密切相关。
The machined surface texture and roughness of composites reinforced by fiber are closely.
本文研究了金刚石车削单晶锗、硅时表面粗糙度随切削方向的变化规律。
The variable regularity of surface roughness on diamond turned single crystal germanium and silicon was investigated in this paper.
进一步指出,当切削方向背离破坏区扩展方向时,能得到较好的已加工表面质量。
It is further shown that the cutting direction has a remarkable effect on the machined surface quality.
研究证明,楔型刀锯进行木质材料无屑切削时,其切削力受木材的树种、切削方向、锯片尺寸、角度参数及切削用量的影响较大。
The result mean: the cutting force affected more by species, cutting direction, the size of saw blade, Angle parameter and the depth of cutting when making no dust cutting experiment by wedge saw.
本文从振动的基础理论出发,认为在挖掘过程中施加切削方向的振动后,能够大大降低作业过程中的挖掘阻力,并提高能量的利用效率。
According to the basic theory of vibration, the article considers that vibration in the process of excavation can reduce the digging force and improve the energy efficiency greatly.
无论切削发球或平击发球,都要学习能以相同的托球位置,发往不同的方向和位置。
Work on being able to hit the slice and the flat serve off the same toss in different directions.
在加工端面、圆弧、圆锥以及蹊径直径相差较大的零件时,沿X轴方向进给时,固然进给速度不变,但切削线速度却不断地变化,导致加工表面质量变化。
In the end, arc, processing and ground is large diameter conical parts, along the X axis into to, is the same, but the linear cutting speed is constantly changing, the cutting surface quality changes.
结论手机的运动方向和趋势在一定程度上影响了切削力的大小。
Conclusions the magnitude of cutting forces could be greatly influenced by the motion direction and tendency of the handpiece.
理论分析表明:行星轮公转与自转的速比,影响着每个切削刀具的阻力矩的大小与方向;
Theoretical study shows that the ratio of revolution velocity to rotation velocity will affect the magnitude and direction of resistance moment of all the cutters.
应用最小能量法建立了圆弧刃切削的切削模型,预测分析了其流屑方向,进行了试验验证。
The cutting model of circular tool is set up with least energy by theoretic analysis, the flow direction is forecasted, and the feasibility is validated.
本文论述了高速切削与普通切削的区别,探讨了高速切削的机理、应用方向及需要研究的问题。
The paper discusses the difference between the high-speed cutting and ordinary cutting, and makes an approach to the mechanism and applied scope of HSC and questions to be researched on HSP.
并提出了被切削层金属沿刀具切削刃向工件两侧的自由表面产生塑性流动是形成两侧方向毛刺主要原因的新观点,得到了试验结果的证实。
A new viewpoint was advanced, in which the plastic flow of metal layer to be cut becomes the cutting burr, and it was confirmed by experimental results.
利用Z高度法效率高的优点,判断采样点是否超差;利用矢量分割法检测结果可靠性高的优点,求解沿着设计曲面的法矢方向以及采样点到刀具扫略体的距离(切削误差)。
By making use of Z depth efficiency in error judgement of sampling point and utilizing reliability of vector partition, it can define the cutting error on real time.
这些工艺的有机结合将是一种理想的、综合效益好的绿色切削,是未来机械切削加工的主流方向。
Combination of these processes would be an ideal, integrated-effective green cutting, mechanical cutting of the future direction of the mainstream.
通过确定各个分方向上的切削力上界保证载荷施加的全面性和可靠性;
The confirmation of the upper bound of machining force of each dimension guarantees the comprehensiveness and reliability of load assigning;
表面粗糙度的预报是切削加工质量分析的重要研究方向。
Prediction of surface roughness has become an important trend of cutting quality analysis.
切削力的预报是切削加工的重要研究方向。
Prediction of cutting force has become an important aspect in HSM.
切削力的预报是切削加工的重要研究方向。
Prediction of cutting force has become an important aspect in HSM.
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