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  当前,在对数控刀具的要求上,很明显国内市场有了更高的要求。所以,为了满足更高的要求,数控刀柄大盘回收也的增长速度也变得特别快,低档需求反而变少。而只有提高数控刀具的竞争力,方可占有一定的市场。

  At present, in the requirement of CNC tools, it is obvious that the domestic market has higher requirements. Therefore, in order to meet higher requirements, the growth rate of NC tool holder disc recycling has also become particularly fast, but the low-end demand has become less. Only by improving the competitiveness of NC cutting tools can they occupy a certain market.

  根据加工区域的特点选择刀具和几何参数。在零件结构允许的情况下应选用大直径、长径比值小的刀具;如果切削的材料是超薄壁、薄壁,应该选择使用相信叫足够的刀具。 数控刀具刀片回收根据零件的加工阶段选择刀具。即粗加工阶段以去除余量为主,应选择刚性较好、精度较低的刀具,半精加工、精加工阶段,从而保证刀具的精度。粗加工时,选择的刀具就应该是精加工时淘汰下来的刀具,这类刀具通常磨损轻微,不影响粗加工使用。

  Tools and geometric parameters are selected according to the characteristics of the processing area. If the part structure permits, the tool with large diameter and small ratio of length to diameter should be selected; if the cutting material is ultra-thin wall and thin wall, the tool believed to be enough should be selected. NC tool blade recovery is based on the processing stage of parts to select the tool. That is to say, in rough machining stage, the removal allowance is the main factor. Tools with better rigidity and lower precision should be selected, and semi-finishing and finishing stages should be selected to ensure the accuracy of the tool. When roughing, the tool chosen should be the tool eliminated during finishing. This kind of tool usually wears slightly and does not affect the use of roughing.

  将加工能力提高三倍,是否简单地将加工机床的数量增加三倍就行了吗,而加工工艺仍然保持今天现有的水平?他说,实际上不可能出现这样的情况。如果将现有技术水平的机床数乘以3,那么就意味着机床操作人员的人数也要以同样的倍数增加。这样的情况简直是难以想象的,因为工厂要聘用能胜任加工机械操作的合格工人是相当困难的。

  If the processing capacity is increased by three times, can we simply increase the number of machine tools by three times, while the processing technology remains at the present level? He said it was virtually impossible for that to happen. If we multiply the number of machine tools with existing technology by 3, it means that the number of machine operators will increase by the same multiple. This is simply unthinkable, because it is very difficult for factories to employ qualified workers who can handle processing machinery.

  因此,提高三倍产能需要从不断发展的先进技术中获得,只有通过这种途径才能使现有数量的金属加工操作人员监控大量的加工操作。

  Therefore, tripling production capacity needs to be obtained from the continuous development of advanced technology. Only in this way can the existing number of metal processing operators monitor a large number of processing operations.

                                    数控刀具刀片回收

  那么这些先进的技术来自于哪里?当然,这些技术也涉及机床本身的发展。现在,机床的加工速度和加工精度越来越高,然而,工件本身并没有以同样的增量级发展,尽管它们也在发生本质上的变化。现如今,被加工的工件不只是对其加工精度、交货期和质量提出了更高的要求,许多车间还面临着以前从未遇到过的越来越多的难加工的材料问题。这些材料包括钛合金、镍基合金和致密型石墨铸铁(cgi),更不用说,在某些情况下,还要以复合材料代替金属材料。

  So where do these advanced technologies come from? Of course, these technologies also involve the development of machine tools themselves. Nowadays, the processing speed and precision of machine tools are getting higher and higher. However, the workpiece itself has not developed at the same incremental level, although they are also changing essentially. Nowadays, the processed workpiece not only sets higher requirements for its processing accuracy, delivery time and quality, but also faces more and more difficult-to-process material problems that have never been encountered before in many workshops. These materials include titanium alloys, nickel-based alloys and compact graphite cast iron (cgi), not to mention, in some cases, composite materials instead of metal materials.

  换句话说,工件材料的发展要比切削加工它们的机床发展更快,变化更大。在机床与零件材料之间存在着一定的差距,为了缩小甚至超越这一差距,发展较快的技术便来自于金属切削刀具,并且其发展速度超过了任何其他的加工工艺。

  In other words, the development of workpiece materials is faster and more changeable than that of machine tools for cutting them. There is a certain gap between machine tools and parts materials. In order to narrow or even surpass this gap, the fastest developing technology comes from metal cutting tools, and its development speed is faster than any other processing technology.