以观察实际切屑形态,验证了该模型的有效性。
The experimental data involving chip morphology is used to verify the model.
本文以图像分析理论为基础,针对切屑形态识别和刀具磨损检测进行了研究。
In this paper based on image analysis theory the chip shape recognition and tool wear inspecting were analyzed and studied.
选用的材料种类和切削条件不同,可生成不同形态的切屑。
Different kinds of material and machining conditions used will produce chips of different shapes.
通过对BTA深孔钻头排屑通道的研究,提出了理想切屑的形态以及断屑的主要措施。
The channel of chip removal is researched, the ideal shape of chip and main measures for chip removal is put forward.
Inconel 718切屑的微观形态在低速下呈带状,高速下由于发生了绝热剪切导致切屑为锯齿状。
The microstructure of Inconel 718 chip is continuous under low cutting speed and serrated under high cutting speed because of adiabatic shearing.
Inconel 718切屑的微观形态在低速下呈带状,高速下由于发生了绝热剪切导致切屑为锯齿状。
The microstructure of Inconel 718 chip is continuous under low cutting speed and serrated under high cutting speed because of adiabatic shearing.
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