Production of metal matrix composites based on aluminum-manganese bronze and nickel alloys by wire feed electron-beam additive manufacturing

A. Chumaevsky, A. Panfilov, K. Kalashnikov, A. Zykova, T. Kalashnikova, A. Vorontsov, S. Nikonov, E. Moskvichev, V. Semenchuk, V. Е. Rubtsov, E. Kolubaev
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Abstract

Samples of composite materials based on BrAMts9-2 bronze with the introduction of the Udimet500 and Inconel625 nickel alloys were obtained by wire-feed electron-beam technology. The studies show that the structures of composites formed during printing, although fairly similar due to the same base of the alloys, have different features due to different combinations of alloying elements. The mechanical properties of the samples with the introduction of up to 15 % of the Udimet500 alloy are higher than those of the samples of the second material. With the introduction of 25 % of a nickel alloy, the strength is higher for the composite material samples with the introduction of the Inconel625 alloy. The microhardness of the samples with the introduction of 5 % of a nickel alloy is identical, the introduction of large volumes of a nickel alloy leads to the implementation of greater hardness in the samples with the introduction of the Inconel625 alloy due to the higher content of refractory materials. Relative elongation after rupture varies insignificantly for the samples of both types.
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铝锰青铜和镍合金金属基复合材料的丝送电子束增材制造
采用进线电子束技术制备了BrAMts9-2青铜和Udimet500及Inconel625镍合金的复合材料样品。研究表明,由于合金基体相同,在打印过程中形成的复合材料结构基本相似,但由于合金元素的组合不同,形成的复合材料具有不同的特征。引入高达15%的Udimet500合金后,样品的力学性能高于第二种材料的样品。当引入25%的镍合金时,引入Inconel625合金的复合材料样品强度更高。引入5%镍合金的样品显微硬度相同,引入大量镍合金导致引入Inconel625合金的样品硬度更高,因为耐火材料的含量更高。两种试样断裂后的相对伸长率差异不显著。
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