Electro-contact material based on copper powder clad with Fe – Cu pseudo-alloy

Perspektivnye Materialy Pub Date : 2022-01-01 DOI:10.30791/1028-978x-2022-1-48-54

A. G. Meilakh, Yu. V. Kontsevoy, E. Y. Goida, A. Shubin

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Abstract

By pressing, rolling and sintering, a composite material (CM) based on copper powder clad with Fe-Cu pseudo-alloy (PA) was created for the working layer of two-layer ruptured electrical contacts. Powder of activated carbon (CA) with a surface of 1000 m2/g served as the arc suppression component. Highly dispersed powders of Al2O3, Fe2Al5, and Fe were also used as additional components. Experimental linear dependences of the conductivity and hardness of copper-based composites on the concentration of individual functional additives have been established. With the addition of mixtures of additional components, CMs were obtained for the working layer of the contact with the following characteristics: electrical resistance — 3.2 – 4.5 μOhm·cm, hardness HB — 790 – 1030 MPa. For a given conductivity of a two-layer contact, which is ≥ 75 % of the conductivity of copper, the dependence of the maximum allowable resistivity of theworking layer (ρ) on the ratio of its thickness to the thickness of the copper layer is calculated. The optimal chemical composition of the working layer of the contact has been determined — 97 % Cu + 1 %  CA + 2 % PA, providing high hardness 1030 MPa and electrical resistance 3.2 μOhm·cm. These characteristics allow creating an electrical contact with a ratio of the thickness of the working and copper layer equal to 1:1.

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铜粉包覆铁铜伪合金的电接触材料

通过压制、轧制和烧结，制备了一种基于铜粉包覆Fe-Cu伪合金(PA)的复合材料(CM)，用于两层断裂电触点的工作层。活性炭粉(CA)的表面为1000 m2/g，作为灭弧组分。高分散的Al2O3、Fe2Al5和Fe粉末也被用作附加组分。建立了铜基复合材料的电导率和硬度随各功能添加剂浓度的线性关系。通过添加其他组分的混合物，获得了电阻为3.2 ~ 4.5 μOhm·cm，硬度HB为790 ~ 1030 MPa的接触面工作层cm。对于给定的两层接触的电导率≥铜电导率的75%，计算了工作层的最大允许电阻率(ρ)与其厚度与铜层厚度之比的依赖关系。确定了触点工作层的最佳化学成分- 97% Cu + 1 % CA + 2% PA，具有较高的硬度1030 MPa和电阻3.2 μOhm·cm。这些特性使工作层和铜层厚度的比例等于1:1的电接触成为可能。

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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Perspektivnye Materialy

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