Scientific Basis for the Substantiation of Process Regulations for the Micro-Cutting of Hardened Gears

Alexander Klochko, Y. Basova, Magomediemin Gasanov, Alexander Zakovorotny, Vitaly Fedorenko, Oleh Myronenko, B. Vorontsov, Anton Ryazantsev, R. Protasov
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Abstract

Abstract The paper considers scientific principles of technological procedure development for the selection and assignment of parameters of velocity machining by blade tool at gear milling with due regard to the required parameters of the gear surface layer. Optimum micro-cutting conditions are determined when full participation in stock removal of all mill teeth is provided. Technological regulation of selection and setting of machining parameters is spread for gear hobbing of the spur gear wheels with fine-modular and coarse-modular hardness (220...320 HV) and after heat treatment (HRC46...63). Correlation with essential parameters of the surface layer, cutting depth, feed, speed and radius of rounding of the cutting edge of milling cutters’ teeth is established. It is scientifically grounded, tested, and proved at what modes of cutting, the radius of rounding of cutting edge of the cutting tool is made metal removal at oncoming and passing high-speed micro milling. The process of determining of minimal sliding angle, or maximum value (without the use of coolant and with coolant), in which there is no micro-cutting process taking into account variation of variable parameters of cutting conditions and geometrical parameters of hobbing cutters is modelled. For the first time, we ascertained the relation between the sliding angle and the maximum contact angle of the mill tooth with the work surface, which allowed determine the efficiency of the shaping process through coefficient (without coolant and with coolant).
淬火齿轮微切削工艺规程的科学依据
摘要 本文研究了在齿轮铣削中选择和分配刀片刀具速度加工参数的技术程序开发的科学原则,并适当考虑了齿轮表面层所需的参数。最佳微切削条件是在所有铣齿都充分参与去毛刺的情况下确定的。在正齿轮滚齿加工中,对加工参数的选择和设置进行了技术调节,加工的正齿轮硬度为细模和粗模(220...320 HV),并经过热处理(HRC46...63)。建立了与铣刀齿表面层、切削深度、进给量、速度和切削刃圆角半径等基本参数的相关性。科学地论证、测试和证明了在何种切削模式下,刀具切削刃的圆角半径能在高速微铣削中去除金属。考虑到切削条件变量参数和滚齿刀具几何参数的变化,确定最小滑动角或最大值(不使用冷却剂和使用冷却剂)的过程没有微切削过程。我们首次确定了滑动角和铣齿与工作表面最大接触角之间的关系,从而确定了通过系数(不使用冷却剂和使用冷却剂)进行成型加工的效率。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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