• شماره ركورد كنفرانس
    3811
  • عنوان مقاله

    Formation of globular structure in A357 aluminum alloy via a near-liquiduscasting (NLC) route

  • پديدآورندگان

    Tohidlou Esmaeil etohidlou@eng.usb.ac.ir Department of Materials Engineering, Faculty of Engineering, University of Sistan and Baluchestan, Zahedan, Iran; , Najafi-Rad Mohammad Department of Materials Engineering, Faculty of Engineering, University of Sistan and Baluchestan, Zahedan, Iran , Khosravi Hamed Department of Materials Engineering, Faculty of Engineering, University of Sistan and Baluchestan, Zahedan, Iran

  • تعداد صفحه
    8
  • كليدواژه
    Near , liquidus casting (NLC) , A357 Al alloy , Re , heating treatment , Shape factor.
  • سال انتشار
    1396
  • عنوان كنفرانس
    ششمين كنفرانس بين المللي مهندسي مواد و متالوژي و يازدهمين همايش ملي مشترك انجمن مهندسي متالوژي و مواد ايران و انجمن علمي ريخته گري ايران
  • زبان مدرك
    انگليسي
  • چكيده فارسي
    A near-liquidus casting (NLC) route is applied to prepare A357 aluminum alloy with a globular structure. The method is cost-effective and based on the melt pouring with low superheat level followed by isothermal re-heating treatment in the semi-solid region. This study describes the effect of both casting temperature and re-heating time on the evolution of globular structure in A357 Al alloy. To do so, molten alloy is poured directly into a cylindrical mold at various temperatures of 625°C, 635°C, 645°C and 655°C. Then, the specimens are re-heated at 590°C for different time of 10, 20, 30 and 40 min. The microstructural development of specimens after reheating stage is investigated. The primary α-Al dendritic phase in the conventional cast alloy is transformed into globular shape in NLC-processed specimens only after re-heating treatment. Increasing both casting temperature and re-heating time change the size and shape factor of globules. The results show that the optimum combination of pouring temperature and re-heating time is found to be 625°C and 30 min, respectively. The mechanisms behind the microstructural evolution are proposed.
  • كشور
    ايران