Al-1.09Mg2Si合金在不同模具和热时效条件下的力学响应

Journal of Metallurgy Pub Date : 2012-12-11 DOI:10.1155/2012/921235

O. Sekunowo, G. Lawal, S. Adeosun

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引用次数: 0

摘要

将6063 (Al-1.09Mg2Si)合金锭样分别在坩埚炉中熔化，在金属模和砂型中铸造。标准的拉伸、硬度和显微组织试样是由铸态试样制成的，在520°C下进行溶液处理，浸泡6小时，然后立即在常温下在装有水的槽中淬火，使其呈过饱和结构。然后将淬火后的样品在175°C下热时效3-7小时。结果表明，在不同时效时间下，试样基体中析出的析出相和金属间化合物含量不同，影响了试样的力学性能。时效4 h的金属模具试样(MTA-4)的极限抗拉强度为247.8 MPa;显微硬度:68.5 HV;伸长率:28.2%。结果表明，合金力学性能的改善程度取决于时效过程中析出相的分数、相干性和分布以及合金中形成的金属间化合物的类型。

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Mechanical Response of Al-1.09Mg2Si Alloy under Varying Mould and Thermal Ageing Conditions

Samples of the 6063 (Al-1.09Mg2Si) alloy ingot were melted in a crucible furnace and cast in metal and sand moulds, respectively. Standard tensile, hardness, and microstructural test specimens were prepared from cast samples, solution treated at 520∘C, soaked for 6 hrs, and immediately quenched at ambient temperature in a trough containing water to assume a supersaturated structure. The quenched specimens were then thermally aged at 175∘C for 3–7 hrs. Results show that at different ageing time, varied fractions of precipitates and intermetallics evolved in the specimens’ matrices which affect the resulting mechanical properties. The metal mould specimens aged for four hours (MTA-4) exhibited superior ultimate tensile strength of 247.8 MPa; microhardness, 68.5 HV; elongation, 28.2% . It is concluded that the extent of improvement in mechanical properties depends on the fractions, coherence, and distribution of precipitates along with the type of intermetallics developed in the alloy during ageing process.

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Journal of Metallurgy

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