Study of high-speed sintering of fine-grained hard alloys based on tungsten carbide with ultralow cobalt content. III. Effect of C content on sintering kinetics of the nanopowders

Physics and Chemistry of Materials Treatment Pub Date : 1900-01-01 DOI:10.30791/0015-3214-2022-2-35-54

Е. Lantsev, N. Malekhonova, V. Chuvil’deev, А. Nokhrin, Y. Tsvetkov, Yu. V. Blagoveshchenskiy, M. Boldin, N. Isaeva, P. Andreev, K. Smetanina

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Abstract

The features of high-speed spark plasma sintering (SPS) of plasma-chemical nanopowders WC – (0.3, 0.6, 1) wt. % Co with the addition of 0.3 and 0.5 wt. % graphite were studied. The structural features of the ultralow-cobalt hard alloys with graphite addition during SPS are due to the simultaneous influence of an increased concentration of oxygen adsorbed on the surface of plasma-chemical WC – Co nanoparticles during mixing with graphite, and the effect of graphite, which leads to a decrease in activation energy of sintering due to a decrease in the intensity of formation of η-phase particles in “oxidized” WC – Co nanopowders, as well as the formation of a fairly uniform fine-grained structure. Samples of fine-grained ultralow-cobalt hard alloys with increased hardness and fracture toughness were obtained (for a WC – 0.6 wt. % Co – 0.3 wt. % C hard alloy with an average grain size of ~ (1 – 1.5) mm, the hardness is Hv = 20.2 – 20.5 GPa with a minimum crack resistance coefficient KIC = 9.2 – 10.4 MPa·m1/2).

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超低钴含量碳化钨基细晶硬质合金高速烧结研究。3C含量对纳米粉体烧结动力学的影响

研究了WC - (0.3, 0.6, 1) wt. % Co等离子化学纳米粉体在添加0.3和0.5 wt. %石墨的情况下的高速放电等离子烧结特性。SPS过程中加入石墨的超低钴硬质合金的结构特征是由于等离子化学WC - Co纳米颗粒在与石墨混合过程中表面吸附的氧浓度增加，以及石墨的作用，导致烧结活化能降低，这是由于“氧化”WC - Co纳米粉末中η相颗粒形成强度降低。以及形成相当均匀的细粒结构。获得了具有较高硬度和断裂韧性的细晶超低钴硬质合金样品(WC - 0.6 wt. % Co - 0.3 wt. % C硬质合金，平均晶粒尺寸为~ (1 ~ 1.5)mm，硬度Hv = 20.2 ~ 20.5 GPa，最小抗裂系数KIC = 9.2 ~ 10.4 MPa·m1/2)。

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Physics and Chemistry of Materials Treatment

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