利用含钛渣和铝青铜为原料开发复合材料

KnE Materials Science Pub Date : 2020-12-31 DOI:10.18502/kms.v6i1.8138

M. Zakharov, N. Ilinykh, O. V. Romanova, O. Rybalko

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引用次数: 0

摘要

本研究考虑了采用以下工艺原料制备复合材料的可能性:含钛渣，添加铝青铜级PG-19M-01 (TU 48-4206-156-82)和铝粉级PA-4 (GOST 6058-73)。混合料中各组分的比例(wt. %)为:矿渣- 40,PG-19M-01 - 30, PA-4 - 30。采用TERRA程序对所选系统在273 ~ 4273 K温度范围内进行了初步的热力学模拟。研究了初始粉体的化学组成和粒度组成。从粉末混合物中压缩片剂，然后在惰性气氛中烧结。对烧结样品的微x射线分析表明，它们由各种形状的大颗粒组成，很可能含有钛和铁铝化物，它们之间的化合物和铜。关键词:含钛渣，复合材料，热力学建模，金属间化合物，压制，粉末材料

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Using of Technogenic Raw Materials Based on Titanium-containing Slag and Aluminum Bronze for the Development of Composite Material

In this study, the possibility of using of the following technogenic raw materials to obtain a composite material was considered: titanium-containing slag, with the addition of aluminum bronze grade PG-19M-01 (TU 48-4206-156-82) and aluminum powder grade PA-4 (GOST 6058-73). The percentage of components in the mixture were as follows (wt. %): slag - 40, PG-19M-01 - 30, PA-4 - 30. A thermodynamic simulation of the selected system was preliminarily carried out using TERRA program in the temperature range 273 - 4273 K. The chemical and granulometric composition of the initial powders was investigated. From the powder mixture there were compressed the tablets and then they were sintered in an inert atmosphere. Micro-X-ray analysis of sintered samples showed that they consist of large particles of various shapes, most likely containing titanium and iron aluminides, their compounds between themselves and with copper. Keywords: titanium-containing slag, composite material, thermodynamic modeling, intermetallic compounds, pressing, powder materials

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KnE Materials Science

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