热处理对超高强铝合金沉积坯微观组织的影响

Effects of heat treatment on the microstructure of as-deposited ultrahigh strength aluminium alloys

  • 摘要: 以喷射沉积技术制备的Al-12Zn-2.4Mg-1.1Cu-0.20Zr-0.30Sc-0.30Ni合金沉积坯为研究对象,采用DSC、XRD、SEM和TEM等分析手段对沉积坯在不同温度下热处理后的微观组织演变进行了研究.结果表明:室温沉积坯基体中有大量η相粒子;在不同热处理制度下溶质元素会发生回溶或脱溶,从而影响合金组织与性能;在460℃/8h热处理时,依附于富Cu初始η相粒子形成了亚稳态T((Al,Zn)49Mg32)相,该相在490℃/8h热处理后消失;490℃/8h热处理时Al3(Sc,Zr)粒子从沉积坯二次析出,其"钉扎效应"与Cu回溶造成的"晶格畸变"是490℃/8h时沉积坯硬度达到最高值(192HV)的重要影响因素.

     

    Abstract: Billets of Al-12Zn-2.4Mg-1.1Cu-0.20Zr-0.30Sc-0.30Ni alloys were fabricated by spray deposition (the Osprey process),and the effects of heat treatment at different temperatures on the microstructural evolution were investigated by DSC,XRD,SEM,and TEM.The results show that many η-phase particles disperse in the as-deposited alloy base at room temperature.The re-dissolution and precipitation effect of solute elements occurred at different heating temperatures can affect the microstructure and mechanical properties of the alloys.The metastable T phase ((Al,Zn)49Mg32) forms around η-phase particles with a high Cu content after a heat treatment at 460℃ for 8h,and disappears at 490℃ for 8h.Al3(Sc,Zr) dispersoids are precipitated at 490℃/8h,the highest hardness (192 HV) of the as-deposited alloys after treatment at 490℃/8h is attributed to the precipitation hardening of Al3(Sc,Zr) dispersoids and the solution hardening effect caused by Cu.

     

/

返回文章
返回