纳米复合材料改性对变形铝合金性能的促进

Pub Date : 2021-01-01 DOI:10.15407/knit2021.06.098

E. Dzhur, N. Kalinina, O.E. Dzhur, A. Kalinin, T. Nosova, S. Mamchur

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引用次数: 0

摘要

本研究的目的是通过纳米分散改性剂处理变形铝合金的熔体，获得分散的组织，提高变形铝合金的力学性能和工艺性能。研究了难熔纳米分散碳氮化钛和碳化硅改性对铝合金晶粒组织和性能的影响。研究了Al-Mg、Al-Mg- sc体系的铝合金。本工作的科学新颖之处在于建立了纳米分散改性剂对铝合金晶粒组织和性能集的影响机理。提出了改性剂的组成——碳化硅(SiC)和碳氮化钛(TiCN)的纳米分散粉末，分数为50…100海里。在光学显微镜下研究了合金的显微组织。合金的强度性能是在TIRAtest300机器上测定的。流动度采用螺旋试验法测定。在改性后的铝合金样品中，工艺性能得到了改善。结果表明，在合金AMg5和1545中，流动性平均提高了10%。改性后的铝合金具有均匀的分散组织。结果表明，1545合金改性后试样的平均晶粒尺寸比初始状态减小了1.6倍，强度特性提高了14 ~ 20%。对AMg5和1545合金进行了一系列的实验和工业熔炼。研究了以碳化硅和碳氮化钛为基材的耐火改性剂对铝合金性能的有效影响。研究结果对航空航天技术产品具有实际意义。

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Promotion of properties of deformed aluminium alloys in modification with nanocomposites

The objective of the work is to obtain a dispersed structure and increase the mechanical and technological properties of deformed aluminum alloys by treating melts with nanodispersed modifiers. The effect of the modification by refractory nanodispersed compositions of titanium carbonitride and silicon carbide on the grain structure and properties of aluminum alloys has been established. Aluminum alloys of the Al-Mg, Al-Mg-Sc system have been studied. The scientific novelty of the work lies in the establishment of the mechanism of influence of the nanodispersed modifier on the grain structure and the set of properties of aluminum alloys. The composition of the modifier is proposed — nanodispersed powders of silicon carbide (SiC) and titanium carbonitride (TiCN) with fractions of 50 ... 100 nm. The microstructure of alloys was studied under optical microscopes. The strength properties of the alloys were determined on a TIRAtest300 machine. Fluidity was determined using the spiral test method. In the modified samples of aluminum alloys, improved technological properties were achieved. It was found that, in alloys AMg5 and 1545, the fluidity increased by an average of 10 %. After the modification, we obtained a homogeneous dispersed structure of aluminum alloys. It turned out that the average grain size in the modified samples of alloy 1545 decreased 1.6 times in comparison with the initial state due to the increase of strength characteristics by 14… 20 %. A series of experimental-industrial melting of AMg5 and 1545 alloys has been carried out. The effective influence of a refractory modifier based on silicon carbide and titanium carbonitride on the properties of aluminum alloys has been proved. The results of the work are of practical importance for aviation and space technology products.

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