根据车刀磨损与工件表面纹理内在关系,研究和设计了显微监测系统。
According to the relationship between turning tools' wear and work-piece texture, a micro monitoring system is researched and designed.
在实验数据的基础上,对工件表面纹理图像的特征参数进行提取,提出采用相对距离作为刀具磨损程度的评价指标。
Using the experimental data, feature parameters of workpiece surface texture images were extracted. Relative distance was presented to evaluate the wear degree of cutting tools.
本论文在分析现状的基础上,从切削声信号和工件表面纹理这两个方面对刀具磨损状态监测技术进行了研究。
This paper researches on the tool wear condition monitoring by cutting sound signal and workpiece surface texture based on analysis of the relative situation.
乔尔将展示如何使用自定义位图,从物质的设计师,定制材料填充层和颗粒笔刷应用纹理和创造现实的磨损。
Joel will show how to use custom bitmaps, custom materials from Substance Designer, fill layers, and particle brushes to apply the textures and create realistic wear and tear.
其中,纹理模型设计模块由用户根据实际情况输入相应的材料属性参数、结构参数和载荷力,确定磨损分析模型;
Texture design data are inputted by the users according to the practical application in order to confirm wear model, including material parameters, structure parameters and load.
其中,纹理模型设计模块由用户根据实际情况输入相应的材料属性参数、结构参数和载荷力,确定磨损分析模型;
Texture design data are inputted by the users according to the practical application in order to confirm wear model, including material parameters, structure parameters and load.
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