1·An orthogonal cutting force model with tool flank wear has been analyzed based on cutting test investigation.
在试验研究基础上进行了有后刀面磨损的正交切削模型分析。
2·The TiAIN coating tools enhanced cutting performance obviously by reducing the flank wear in the cutting medium of coolant oil.
在切削油介质中,涂层铣刀后刀面磨损降低,切削性能也明显得到改善。
3·According to dynamics, this paper analyses effect of the tool flank wear on cutting force. It gives relationship between the tool flank wear and dynamic cutting force.
本文从动力学角度分析了车削过程中刀具后刀面磨损量对切削力的影响,得出切削力动态成分与刀具后刀面磨损量之间的关系。
4·In many cases of stainless steel cutting operations with carbide tools, a tool life strongly depends on flank notch wear of depth of cut rather than average flank wear of main cutting edge.
硬质合金刀具在不锈钢加工中,其刀具耐用度主要是取决于后刀面边界磨损而不是主切削刃后刀面的平均磨损量。
5·The machining error caused by the flank wear of cutting tool in milling processes is analyzed, and a mathematic model about machining errors was proposed based on the flank wear of cutting tool.
对铣削加工过程中后刀面磨损对加工精度的影响进行了分析和研究,建立了基于刀具后刀面磨损的铣削加工误差的数学模型。
6·Oxidation wear appeared at the wear edge of rake face and flank face of cutting tool.
硬质合金刀具的氧化磨损主要发生在刀具前刀具和后刀面的磨损边缘区。
7·This was due to the increase in the contact area at the tool-chip and tool-work interface due to the presence of flank and crater wear.
这是由于增加了接触面的工具,芯片和工具的工作界面因侧翼和火山口的磨损。
8·To improve a tool life in this case, therefore, the flank notch wear must be depressed to generate.
为了提高刀具耐用度,就必须减小后刀面边界磨损。
9·The space tool radius offset G instructions with the developed approach will avoid NC codes regeneration due to tool wear or tool change during the three-axis NC flank milling process.
基于该算法的空间刀具半径补偿G指令将可避免由于刀具磨损和刀具更换导致的三轴侧铣数控代码重生成。
10·In order to enhance surface quality, therefore, optimum cutting data, tool wear, surface roughness of flank faces of tools a…
为提高加工表面质置,必须优选切削参数,重视刀具磨损、后刀面粗糙度及工件材料组织的缺陷。