In order to get low surface roughness and high material remove rate, basic research on the optimization of process parameters in creep feed ultrasonic grinding engineering ceramics was conducted.
为了在加工中获得良好的表面质量和大的材料去除率,本文开展了蠕动进给超声磨削工程陶瓷参数优化的基础研究。
Tangential grinding forces are obtained through monitoring spindle power and the ir variations are studied with process parameters such as depth of cut, feedrate and wheel grit size.
通过测量主轴功率获得切向磨削力,讨论了加工参数,如切深、进给率以及砂轮粒度对切向磨削力的影响。
The surface characteristic of the grinding hardening parts and effect of grinding parameters on the hardness penetration depth and the new process industrial application will be illustrated in detail.
主要论述了磨削淬硬零件的表面特性及磨削参数对磨削淬硬层深度的影响以及在工业中应用的可行性。
In this paper, it is stated that grinding process is a dynamic one. Then the parameters of grinding dynamics equation will change.
通过试验研究指出,磨碎过程是一个动态过程,故动力学方程序的参数也将是变化的。
The grinding process could be controlled either by grinding cycle parameters or by signals from gauge, which meets the grinding control requirements very well.
通过循环参数控制和量仪控制两种磨削加工的控制方法,较好地满足了磨削加工的控制要求。
It was described the process and methods of parameters optimization for the abrasive belt grinding by using MATLAB optimization function.
阐述了应用MATLAB优化函数对砂带磨削进行工艺参数优化的过程和方法。
Grinding method was used for inclusion, orthogonal design select the best process parameters.
用研磨法进行包合,正交设计实验筛选最佳工艺参数。
By the principle of reversal process, the formula of material removal rate (MRR) in wafer rotation grinding process is deduced. The relationship between MRR and the grinding parameters is given.
在反转法的原理上,建立了硅片自旋转磨削材料去除率的理论模型,推导了材料去除率公式,分析了磨削工艺参数与材料去除率的关系。
In the grinding process, all states and parameters can be displayed on the screen real time and can directly modify the relevant parameters.
磨削过程中,屏幕实时显示各状态与参数,并可直接修改相关参数。
In the grinding process of ceramic material, the surface quality is directly affected by the property of diamond grinding wheel and the grinding parameters.
在陶瓷材料的磨削加工过程中,金刚石砂轮特性和磨削用量直接影响磨削表现质量。
Based on these, intelligent selection of starting parameters for grinding process can be realized.
据此可以实现初始磨削用量智能化选择目的。
Based on these, intelligent selection of starting parameters for grinding process can be realized.
据此可以实现初始磨削用量智能化选择目的。
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