除了部分程序更正,编辑也可以进行对切削条件下加工周期的优化。
In addition to part program corrections, editing can also be done to optimize the cutting conditions of the machining cycle.
经加工试验证明了该表面粗糙度预测模型的有效性,从而实现加工前在确定切削条件下预测和控制表面粗糙度的目的。
It proves that this prediction model is effective by machining experiments. Using prediction model can predict and control surface roughness under certain condition.
以这两种刀片在不同切削用量条件下的耐用度、加工表面粗糙度和主切削力作为刀具加工性能的评价依据,同时研究了刀片的磨、破损机理和卷、排屑稳定性。
The tool lifespan, surface roughness and main cutting force of the two kinds of tools with different machining parameters are used as the evaluation criterion of machining ability.
通过对零件的加工技术条件的分析,以及切削成形运动的研究。
Through the analysis of the condition of processing technique for element, as well as the research of cutting Forming movement.
在玻璃加工质量允许的条件下,玻璃制品孔加工宜选择高的切削速度、适当的外加载荷。
Under the conditions of permission of glass processing quality, the high cutting speed and suitable external load should be selected.
本文探讨了晶体材料的切削加工性,重点分析了切削条件对表面粗糙度的影响。
The machinability of crystal material is studied, and the influence of the cutting condition on surface roughness is analyzed.
加大插齿刀后角可以有效改善插齿刀的切削条件,提高齿表面加工质量和延长刀具使用寿命。
Enlarging the clearance of gear shaping cutter can improve efficiently its cutting condition, the gear surface quality and tool life.
锻造材料,良好的流水性,较小的缩水条件,适切削加工。
Forging Materials, good water, and a smaller shrinkage conditions, fitness Cutting, bar.
自适应切削可以保证在加工条件不断变化的情况下使切削过程始终处于最佳状态。
The adaptive cut can make cut process at optimum condition all along, in case the machining conditions are constantly changing.
探讨晶体材料的切削加工性,重点分析切削条件对实现镜面车削的影响。
The paper presents the machinability of crystal materials, and emphasizes the influence of cutting conditions on the mirror finish.
为降低切削区温度、防止刀具的氧化磨损,提出在低温氮气射流条件下进行钛合金的高速铣削加工。
The use of cryogenic nitrogen gas jet to reduce the temperature of cutting zone and to avoid oxidation wear of tool in high speed milling titanium alloy was presented.
实验结果表明,这种方法能够加工出达到测试模型要求的零件。冷风切削不锈钢的实验成功,为航空实验水平上台阶,创造了条件。
It has been shown that method cutting model can reach request, succeed in experimentation of cutting with coo led air, in order to improve aviation experiment create condition.
按照实际加工条件建立了切削模拟模型,按照国家标准建立的硬质合金可转位刀片的三维模型既考虑到真实的刀片几何形状,也考虑了其安装角度参数。
In the simulation, the WC hard-alloy cutting tool was built in according to meet the GB, in which the real shape of cutting tool and the angle parameters in the mounting are also considered.
在超精密加工中,切削过程仅仅发生在刀尖局部微观区域,刀具的磨损规律必然与宏观条件下有很大不同。
In the case of UMT, as cutting process has occurred in the local area adjacent to the tool tip, the wear mechanism must differentiate with macroscopic world.
在超精密加工中,切削过程仅仅发生在刀尖局部微观区域,刀具的磨损规律必然与宏观条件下有很大不同。
In the case of UMT, as cutting process has occurred in the local area adjacent to the tool tip, the wear mechanism must differentiate with macroscopic world.
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