Influence of Powder Charge Composition on the Structure and Properties of T15K6 Hard Alloy

Proceedings of the Southwest State University. Series: Engineering and Technology Pub Date : 2023-07-23 DOI:10.21869/2223-1528-2023-13-2-20-42

А. М. Alimzhanova, Z. Eremeeva, A. V. Nozhkina, V. Levina, N. Nitkin, V. L. Orlov

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Abstract

The purpose of the study is to determine the effect of nanosized additives on the structure and properties of the T15K6 hard alloy.Methods. These studies were carried out using an S-3400N electron microscope. The mechanical and physical properties of the structure of a hard alloy of the WC-TiC-Co system were studied using the example of T15K6 when nanosized tungsten powder and nanosized tungsten carbide powder with cobalt deposited on it were introduced into the initial charge using an optical and electron microscope; An X-ray spectrum analysis of the obtained samples of the T15K6 hard alloy was carried out on a DRON-4 X-ray diffractometer.Results. A hard alloy of the WC-TiC-Co system was studied with the introduction of nanosized tungsten powder into the initial charge, as well as with the introduction of nanosized tungsten carbide with cobalt deposited on its surface.In the work, the used powders of tungsten, nano-tungsten, cobalt, titanium carbide, tungsten carbide, nano-powder of tungsten carbide were studied, and the microstructure of the obtained hard alloys was also studied. It is shown that the coercive force of the T15K6 alloy depends on the size of the cobalt phase regions in the alloy; measuring its value makes it possible to judge the size of carbide grains. To improve the strength properties of hard alloys of the WC-TiCCo system, it is recommended to introduce nanosized WC additives or WC nanopowder with deposited cobalt.Conclusion. To improve the strength properties of hard alloys of the WC-TiC-Co system, it is recommended to introduce nanosized WC additives or WC nanopowder with deposited cobalt. The introduction of these additives into the composition of the powder charge of the T15K6 hard alloy leads to an increase in the ultimate bending strength by 15%. The introduction of nanosized WC additives or WC nanopowder with deposited cobalt makes it possible to obtain a fine-grained structure with a grain size of no more than 4–6 μm.

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粉末成分对T15K6硬质合金组织和性能的影响

本研究的目的是确定纳米添加剂对T15K6硬质合金组织和性能的影响。这些研究使用S-3400N电子显微镜进行。以T15K6为例，利用光学显微镜和电子显微镜研究了纳米钨粉和表面沉积钴的纳米碳化钨粉初始电荷对WC-TiC-Co体系硬质合金结构的力学和物理性能的影响;用DRON-4型x射线衍射仪对获得的T15K6硬质合金样品进行了x射线光谱分析。在初始电荷中加入纳米钨粉，并在纳米碳化钨表面沉积钴，研究了WC-TiC-Co体系的硬质合金。研究了钨粉、纳米钨粉、钴粉、碳化钛粉、碳化钨粉、纳米碳化钨粉，并对所得硬质合金的显微组织进行了研究。结果表明:T15K6合金的矫顽力与合金中钴相区大小有关;测量其值可以判断碳化物晶粒的大小。为了提高WC- ticco体系硬质合金的强度性能，建议引入纳米WC添加剂或沉积钴的纳米WC粉。为了提高WC- tic - co体系硬质合金的强度性能，建议引入纳米WC添加剂或沉积钴的WC纳米粉。将这些添加剂添加到T15K6硬质合金的粉末料中，使其极限抗弯强度提高了15%。引入纳米WC添加剂或沉积钴的WC纳米粉可以获得晶粒尺寸不超过4-6 μm的细晶结构。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Proceedings of the Southwest State University. Series: Engineering and Technology

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