Nowadays, hard carbides have found various industrial application in the manufacture of cutting and drilling tools as well as metal forming devices. About 60% of the world tungsten production is consumed in the manufacture of hard carbide pieces. Regarding the high economic value of hard carbide components, i.e., Ni, Co, TaC, TiC, and WC, their recovery from scrap species is attracting much interest. In the current research, the cobalt and tungsten content were recovered from scrap cemented carbide pieces through the application of high voltage electrolysis in nitric acid media. By this method, cobalt and tungsten were initially recovered as cobalt nitrate and tungstic acid, respectively. The precipitate of tungstic acid was calcined at 800°C after being washed twice with distilled water. A pure tungstic oxide was obtained. The effects of current density, electrolyte concentration, speed of agitation, and the surface area of the anode on the efficiency of the electrolysis process were investigated. The optimum conditions of current density of 1500 A/m{sup}2, an acid concentration of 1.5 M, and a cell temperature in the vicinity of 60 to 80°C were obtained. At the optimum conditions, an acceptable rate of collapse for the anodic carbide pieces of about 3.1 g/h was achieved, which remained constant up to the completion of the recovery process without any passivation
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机译:如今,硬质合金在制造切割和钻孔工具以及金属形成装置中发现了各种工业应用。大约60%的钨生产在碳化物碎片的制造中消耗。关于硬质合金组分的高经济价值,即Ni,Co,Tac,Tic和WC,它们从废料物种中的恢复都会吸引很多兴趣。在目前的研究中,通过在硝酸介质中的高压电解中从废渣碳化物片中回收钴和钨含量。通过该方法,最初分别回收钴和钨作为硝酸钴和钨酸。用蒸馏水洗涤两次后,在800℃下煅烧钨酸的沉淀物。获得纯氧化钨。研究了电流密度,电解质浓度,搅拌速度和阳极表面积对电解过程效率的影响。最新的电流密度为1500A / m {sup} 2,酸浓度为1.5μm,以及60至80℃的细胞温度。在最佳条件下,实现了约3.1g / h约3.1g / h的阳极碳化物片的可接受的崩溃率,这仍然持续完成恢复过程而没有任何钝化
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