Young-Hee Cho, Jung-Moo Lee, Jin Jin, Jae-Gil Jung
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引用次数: 0
摘要
通过优化合金元素、改性和热处理的组合,提高了商用铝铸造合金A356的机械性能。在Al-7Si-0.35Mg合金中加入0.7 wt.%的Cu和额外的0.2 wt.%的Mg,用于室温和高温强化,同时通过添加高达110 ppm的Sr对共晶Si进行改性,弥补了随后塑性的下降。发现解散Cu-rich或Mg-rich阶段可以最大化solid-solutionising合金40 ppm Sr 530 o C,增加强度和产量优势350 MPa和297 MPa,分别合理高应变的5%在210度C . peak-aging后进一步增加Sr 110 ppm,然而,更有可能干扰Cu-rich的解体或Mg-rich阶段固溶体治疗期间,导致室温下拉伸强度和屈服强度的轻微下降。另一方面,除了Cu的加入外,这些未溶解相可能有助于提高温度强度
Improvement of the Mechanical Properties of Al-7Si-0.35Mg Cast Alloys by the Optimised Combination of Alloying Elements and Heat Treatment
Improvement of the mechanical properties of a commercial aluminium casting alloy, A356, was achieved through an optimised combination of alloying elements, modification, and heat treatment. 0.7 wt.% Cu and an additional 0.2 wt.% Mg were added to an Al-7Si-0.35Mg alloy for strengthening at both room and elevated temperatures, whilst a subsequent decrease in the ductility was compensated for by the modification of eutectic Si by Sr addition at a level of up to 110 ppm. It was found that the dissolution of Cu-rich or Mg-rich phases could be maximised by solid-solutionising an alloy with 40 ppm Sr at 530 o C, increasing the tensile and yield strengths to 350 MPa and 297 MPa, respectively, with a reasonably high strain of 5% after peak-aging at 210 o C. Further addition of Sr up to 110 ppm is, however, more likely to interfere with the dissolution of the Cu-rich or Mg-rich phases during solid solution treatment, resulting in a slight decrease in both tensile and yield strengths at room temperature. Besides the Cu addition, such undissolved phases, on the other hand, may contribute to elevated temperature strength
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