从基于RuAl的耐热合金中获得用于3D技术的前驱体的条件研究

Perspektivnye Materialy Pub Date : 2023-01-01 DOI:10.30791/1028-978x-2023-5-5-21

K. Povarova, A. Drozdov, A. Samokhin, O. Skachkov, A. Fadeev, A. A. Dorofeev, V. Sirotinkin, A. Ashmarin, M. A. Bulakhtin, A. V. Antonova, A. Morozov

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摘要

本文讨论了用镍β-NiAl和钌β-RuAl难熔单铝化物制备高质量粉末材料的可能性，用于用添加剂技术制造复杂形状的致密样品/产品，最终加工最少。添加剂技术是基于使用球形前驱体微粉末，具有可调节的颗粒组成，良好的流动性和无氧化物表面。本文考虑了用等离子体球化方法从含不同添加剂的铝基合金的废试样中粉碎混合得到的粉末，从而获得铝基合金前驱体的可能性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Study of the conditions for obtaining precursors intended for 3D technologies from a heat-resistant alloy based on RuAl

The article discusses the possibilities of preparing high-quality powder materials from heat-resistant light alloys based on refractory monoaluminides of nickel β-NiAl and ruthenium β-RuAl for the manufacture of compact samples/products of complex shape using additive technologies with minimal final machining. Additive technologies are based on the use of spherical precursor micro-powders with a regulated granulometric composition, good fluidity and an oxide-free surface. The possibilities of obtaining precursors from RuAl-based alloys by plasma spheroidization of powders obtained by crushing mixtures from scrap samples of alloys based on RuAl with various additives are considered.

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Perspektivnye Materialy

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