采用传统的切削理论已经很难准确地理解其切削机理。
It is difficult to explain the mechanism of the nanoscale cutting using the traditional cutting theory.
介绍国外应用分子动力学研究超精密切削机理的现状和方法。
A review of the recent oversea research on the mechanism of ultra-precision cutting and the research methods are given.
提出了超声研磨螺旋锥齿轮的理论与方法。 分析了超声研齿不灵敏性振动切削机理。
The paper presented the theory and method for the ultrasonic lapping of spiral-bevel and hypoid gears and analyzed its insensitive vibration cutting mechanism.
在高速切削条件下,材料的切削机理将发生变化,切削过程将变得容易,切削热将降低。
In this process the heat of cutting is reduced and the material can be easily cut.
文中给出了旋削机械简图,并就该机构的切削机理和控制方式给予了充分的论述与说明。
Based on the new cutting method, the author has designed a new cutting framework and analyzed its cutting principle and control means.
有限元模拟是研究高速切削机理的有效方法,本文致力于有限元模拟所必需的关键技术研究。
Finite element simulation is an effective method to study high-speed cutting mechanism, and several key finite element techniques are studied in this paper.
从切削运动、切削量、磨粒性能三个方面分析了超声波振动珩磨的切削机理,并归纳了超声波振动珩磨的特点。
The cutting principles including cutting motion, cutting quantity, and grain performance of ultrasonic vibration honing are analyzed, and its specialities are generalized.
首先介绍了高速切削加工难加工材料的特点,通过对高速切削机理的研究,分析难加工材料高速切削加工的可行性。
Following the introduction of the characteristics and cutting mechanism of high speed machining, we educe the feasibility of the high speed machining difficult-to-machine materials.
通过切削试验研究了超声激振双刃镗刀镗削深孔的过程和效果,分析了超声激振双刃镗削的切削机理,讨论了切削参数对加工表面粗糙度的影响规律。
Based on the cutting experiment, the process and effect of ultrasonic vibration boring for precise deep holes by using the double-edge boring cutter are researched.
就准分子激光角膜切削机理和“飞点扫描”等关键技术进行了研究,研究成果直接用于准分子激光眼科治疗机,并给出了准分子激光眼科治疗机的原理框图。
Mechanism of the excimer laser corneal ablation, "flying-spot" scanning and key technologies are discussed. Research results have been applied to the ophthalmic excimer laser system.
就准分子激光角膜切削机理和“飞点扫描”等关键技术进行了研究,研究成果直接用于准分子激光眼科治疗机,并给出了准分子激光眼科治疗机的原理框图。
Mechanism of the excimer laser corneal ablation, "flying-spot" scanning and key technologies are discussed. Research results have been applied to the ophthalmic excimer laser system.
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