Improved Tensile Strength and Electrical Conductivity of the Electrical Conductor Aluminum Alloy 6201

Alyaqadhan Allamki, M. Al-Maharbi, R. Arunachalam, Sayyad Zahid Qamar
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Abstract

The aluminum-magnesium-silicon alloy 6201-T81 is a popular electrical conductor, widely used for overhead and distribution lines. Its light weight makes its mass conductivity twice that of copper. Aluminum conductors however experience creep, corrosion, power loss, and other drawbacks. Therefore, it has become a necessity for manufacturers to improve mechanical and electrical properties. The alloy 6201-T81 is an age hardenable alloy, in which a controlled precipitation of Mg2Si is performed through two different successive heat treatments: Solution heat treatment and precipitation heat treatment. ∅ 3.5 mm wires of the alloy were solution heat treated at 510 °C for an hour, quenched in ice water, and precipitation heat treated at the temperature range 150–200°C for the time range 2–24 h. Results show that strength and hardness increase with aging time at the precipitation heat treatment temperatures 150 °C, 165 °C, and 175 °C, but decreased with aging time at 185 °C and 200 °C. The increase was due to the precipitation of finely and uniformly coherent needle-like Mg2Si precipitates, β″. The decrease was due to the precipitation of the semi-coherent and incoherent rod-like Mg2Si precipitates β′ and β, respectively. Electrical conductivity increases with the aging temperature and time. Maximum conductivity was 60 %IACS obtained after treatments (185°C, 18h), (200 °C, 13h), and (200 °C, 24h. Optimum mechanical properties were obtained after the treatment (165 °C, 18 h) (313 MPa, 8%, 95 HV, and 57.7 %IACS). Optical micrographs verified the correlation between the microstructural grain size and both the mechanical and electrical properties.
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电导体铝合金6201的抗拉强度和导电性的改进
铝镁硅合金6201-T81是一种常用的电导体,广泛用于架空和配电线路。它的重量轻使得它的导电性是铜的两倍。然而,铝导体经历蠕变,腐蚀,功率损失和其他缺点。因此,提高机械和电气性能已成为制造商的必需品。6201-T81合金是一种时效硬化合金,通过两种不同的连续热处理:固溶热处理和沉淀热处理,实现Mg2Si的可控析出。∅该合金3.5 mm线材在510℃固溶热处理1 h后,在冰水中淬火,在150 ~ 200℃沉淀热处理2 ~ 24 h。结果表明,在150℃、165℃、175℃的沉淀热处理温度下,强度和硬度随时效时间增加,在185℃、200℃时效时强度和硬度随时效时间降低。增加的原因是析出细小且均匀一致的针状Mg2Si相β″。这主要是由于半共格和非共格棒状Mg2Si析出β′和β所致。电导率随老化温度和时间的增加而增加。处理(185°C, 18h)、(200°C, 13h)和(200°C, 24h)后,电导率最高为60% IACS。经165℃,18 h (313 MPa, 8%, 95 HV, 57.7% IACS)处理后获得最佳力学性能。光学显微照片证实了微观组织晶粒尺寸与力学和电学性能之间的相关性。
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