Luiz Antonio Azevedo Rosa, Luis Rogerio de Oliveira Hein, Marcos Valério Ribeiro
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引用次数: 0
摘要
在制造高强度铝合金部件时,汽车工业对退变和时效(RRA)非常感兴趣。本研究获得了AA7012-T6 (Al-Zn-Mg-Cu) - UNS A97012铝合金的回归和时效曲线。RRA热处理分为两个阶段:第一阶段为回归期,在180℃、210℃、240℃的不同温度下,对处于T6硬化状态的试样进行5 s ~ 4 h的回归期。第二阶段,再时效,在120℃下进行24 h(获得T6回火的工艺参数)。通过测量硬度维氏(HV)得到RRA曲线。样品的电导率也进行了评估(%IACS -国际退火铜标准)。RRA曲线在180°C/1 h下还原,在120°C/24 h下还原,得到最佳响应。RRA在180°C/1 h下还原,在120°C/24 h下还原,硬度(HV)提高19%。
Retrogression and reaging (RRA) is of interest to the automotive industry for manufacturing components of high-strength aluminum alloys. This study describes obtaining the retrogression and reaging curve for the aluminum alloy AA7012-T6 (Al–Zn–Mg–Cu) — UNS A97012. The RRA heat treatment consists of two stages: the first stage is retrogression, which was carried out on samples in the T6 hardening condition for a time ranging from 5 s to 4 h at different temperatures: 180 °C, 210 °C, and 240 °C. The second stage, reaging, was conducted at 120 °C for 24 h (process parameters for obtaining the T6 temper). The RRA curve was obtained by measuring hardness Vickers (HV). The samples were also evaluated for electrical conductivity (%IACS — International Annealed Copper Standard). The best response for the RRA curve was obtained with retrogression at 180 °C/1 h and reaging at 120 °C for 24 h. The increase in hardness (HV) obtained with RRA 180 °C/1 h and reaged at 120 °C/24 h was 19%.
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