钢和铁机械加工过程中温度现象的研究

V. Derbaba, O. Bohdanov, V. Ruban
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引用次数: 0

摘要

目的。用计算机模拟机械加工过程中非稳态热交换过程的方法研究工业生产条件下钢和铸铁毛坯切削区温度现象,并寻找最佳刀具材料。的方法。研究方法是基于切削理论和刀具理论的基础,以及刀具与切削区工件接触面的热传导理论。使用一个应用程序来模拟金属和合金机械加工过程中的热现象。考虑温度变化的最佳切割模式的确定。发现。计算机实验证实,加工30X钢时的最佳刀具材料是P6M5材料制成的刀具,加工ChCh20铸铁时最好使用VK8材料制成的刀具。在相同的切削参数(切削深度、进给、切削速度、刀具几何形状)下,接触面受热较少,因此刀具将更慢地失去其切削质量,并将持续更长时间,并具有适当的最终产品质量。如果在企业能力有限的情况下,缺乏由最佳材料制成的刀具,则可以使用非最佳刀具材料进行钢和铸铁的机械加工,切削深度小至1mm,进给量低- 0.2 mm/rev。在较大的切削和进给深度下(t > 1 mm, S > 0.2 mm/rev),切削区温度迅速上升,升高20-40ºС,这对加工过程产生负面影响,降低了刀具的稳定性。的创意。为保证高质量的加工,建立了零件和工件的最佳切削方式和材料牌号。研究刀具-工件系统的热过程,确定接触面上任意点的温度。实际的实现。使用应用程序,您可以确定切割楔适当点的温度,模拟不同切割模式(切割深度,进给,切割速度,刀具几何形状)的热场分布,并设置其最佳值,同时考虑到刀具和工件的材料。这将大大加快机械加工工艺流程的准备速度,确保所需的质量并最大限度地降低成本。
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Research of temperature phenomena during the mechanical processing of steels and iron
Purpose. Research of temperature phenomena in the cutting zone of steel and cast iron blanks in the conditions of industrial production by methods of computer modeling of non-stationary processes of heat exchange during mechanical processing and the search for the optimal material for a cutting tool. The methods. Research methods were based on the basics of the theory of cutting and cutting tools, the theory of heat conduction in relation to the contact surfaces of the cutting tool and the workpiece in the cutting zone. Use of an application program for modeling thermal phenomena during mechanical processing of metals and alloys. Determination of optimal cutting modes taking into account temperature changes. Findings. A computer experiment confirmed that the optimal cutter materials when processing 30X steel is a tool made of P6M5 material, and it is better to use a tool made of VK8 material for processing ChCh20 cast iron. With the same cutting parameters (cutting depth, feed, cutting speed, tool geometry), the contact surfaces heat up less, and therefore the tool will lose its cutting qualities more slowly and will last longer, with the proper quality of the final product. If there is a lack of cutters made of optimal materials in the conditions of limited capabilities of the enterprise, it is possible to use a non-optimal tool material for mechanical processing of steels and cast irons with small cutting depths of up to 1 mm and at low feed - 0.2 mm/rev. At greater depths of cutting and feeding (t > 1 mm, S > 0.2 mm/rev), temperatures in the cutting zone rise rapidly, increasing by 20-40ºС, which negatively affects the processing process and reduces the stability of the cutting tool. The originality. Optimum modes of cutting and brands of materials of parts and workpieces, which will ensure high quality of processing, have been established. Research of thermal processes of the tool-workpiece system with determination of the temperature at any point on the contact surfaces. Practical implementation. Using the application program allows you to determine the temperature of the appropriate point of the cutting wedge, simulate the distribution of the thermal field for different cutting modes (cutting depth, feed, cutting speed, tool geometry) and set their optimal values, taking into account the material of the cutter and the workpiece. This will significantly speed up the preparation of the technological process of mechanical processing, ensure the required quality and minimize costs.
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