油气工业钨合金零件加工的特点

Maksim Terehov, D. Sevost'yanov, Lyudmila B. Filippova
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摘要

所开展工作的目的是为了提高硬质合金加工的有效性。在本文的研究范围内,解决了tc3合金零件的电蚀处理和车削问题。对硬质合金刃口加工刀具和切削方式的选择以及电蚀处理的电极材料提出了建议。提高生产效率和设备运行质量的途径之一是应用包括钨合金在内的新材料和合金。在本工作的范围内,以“套筒”零件为例,考虑了石油天然气工业中TC3合金零件加工的特殊性。对于加工内表面和外表面,使用车削操作,对于复杂的凹槽-由于零件尺寸小,电蚀处理是加工的唯一可能选择。阐述了硬质合金车削加工的特点和硬质合金难加工的基本原因。有显示的方法来选择刀具,表面粗糙度和刀具耐久性依赖于切削模式的选择。在车削过程中,板材的加工强度必须高于合金。硬质合金加工的最佳选择之一是立方氮化硼。为了加工,有必要使用刚性增加的刀柄。提出了硬质合金电蚀处理的电极设计原则和提高工艺生产率的途径。从经济用途的角度对铜钨伪合金和m1级铜的应用进行了比较。铜钨合金具有高耐用性、加工速度快、制造电极经济等优点,但从经济角度来看,使用铜合金更为合理。
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PECULIARITIES IN TUNGSTEN ALLOY PARTS PROCESSING FOR OIL-GAS INDUSTRY
The purpose of the work carried out is to increase the effectiveness of hard alloy machining. Within the limits of the paper there is solved a matter of electro-erosion treatment and turning TC 3 alloy parts. Basic investigation methods are: - experiment and comparison, - computer simulation The work resulted in recommendations for the choice of cutters and cutting modes for hard alloy edge machining and also electrode material at electro-erosion treatment. One of the ways to increase productivity and operation quality equipment consists in the application of new materials and alloys including tungsten alloys. Within the limits of this work there are considered the peculiarities in machining TC3 alloy parts for oil-gas industry by the example of the “sleeve” part. For machining inner and outer surfaces there was used a turning operation, and for complex grooves – electro-erosion treatment as the only possible choice for processing because of a small size of the part. The peculiarities hard alloy machining through turning and basic reasons of hard alloy hard-to-workability are described. There are shown approaches to the choice of cutters, and the dependence of surface roughness and tool durability upon cutting mode choice is shown. During turning plate material must have higher strength than alloy under machining. One of the best choices for hard alloy machining is cubic boron nitride. For processing it is necessary to use tool holders with the increased rigidity. There are presented principles of electrode designing for hard alloy electro-erosion treatment and ways for process productivity increase. The application of copper-tungsten pseudo-alloys and m1 grade copper is compared from the point of view of economic purposefulness in their use. In spite of copper-tungsten alloy high durability which gives advantages in processing rate and economy in manufacturing electrodes its use is economically inexpedient and it is more rational to use copper which is cheaper.
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