斜航式法向圆弧锥齿轮数控加工实验表明,该锥齿轮数控加工原理正确,工艺简单,且加工精度较高。
The experimental results of machining actual workpiece prove that nc machining principles are correct, technology is simple, and the machining precision is high.
应用统计过程控制技术,对国产七轴五联动数控螺旋锥齿轮磨齿机yk2050的加工性能进行实验研究。
By applying SPC technology, the experimental study on processing performance of homemade YK2050 CNC spiral bevel gear grinding machine was done.
对基于逆向工程的叶轮叶片曲面的数控加工进行了系统的实验研究,证明了所提方法的可行性。
Experimental research on NC machining of impeller blade's surface based on reverse engineering is carried out systematically, which proves the feasibility of the method given above.
介绍凸轮轮廓磨削加工的数学模型及研制的数控凸轮轴磨床的机械结构,进行加工实验并讨论凸轮轴磨削的工艺参数。
Describes the math model of grinding camshaft, the mechanical structure of the CNC camshaft grinding machine ourselves and the experiment, then discusses the machining technics.
根据钛合金材料的加工工艺性能,采用数控加工中心加工出拉伸实验所用试件。
According to the processing performance titanium alloy materials, using a CNC machining center processing the tensile test specimen.
通过实验,研究分析了基于PMAC的高速精密磨削数控加工,为实现PMAC在高速精密加工中的应用打下基础。
Through the trial analysis, we studied high precise NC manufacture on PMAC, this paper provided the foundation for application of PMAC on high precise manufacture.
实验结果表明,数控车削加工不仅可以获得很高的加工效率,同时也可以达到较高的精度。
The results show that high efficiency as well as high accuracy can be attained by CNC turning.
实验结果表明,螺旋锥齿轮数控机床的几何精度提高,其齿轮加工精度也提高。
The result of experiments indicates that improvement of geometric positioning accuracy of CNC machine tool of Spiral Bevel Gear can improve machining precision of gears.
根据磁力研磨加工原理,基于数控铣床研制了磁力研磨实验装置,对平面和凹面的磁力研磨加工进行了实验研究。
According to the principle of magnetic abrasive finishing, a magnetic abrasive finishing setup was designed base on CNC milling machine.
在实验中,分别对常规磨削和经精磨后的数控刀片在切削加工中的磨损情况进行了对比。
Wear speed were contrasted for two kinds of NC tools to conventional and fine ground respectively.
设计和制作了阴极和夹具,在DJK3150数控电解加工机床上,进行了微细电解加工的实验。
Design and fabricate the cathode tool and the anode clamping tool. Carry the experimentation of ECM by using the DJK3150 numerical controlling ECM machine tool.
设计和制作了阴极和夹具,在DJK3150数控电解加工机床上,进行了微细电解加工的实验。
Design and fabricate the cathode tool and the anode clamping tool. Carry the experimentation of ECM by using the DJK3150 numerical controlling ECM machine tool.
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