研究了不同含量Ce/La(x=0,0.1,0.5,1.0)对AZ91D镁合金显微组织及蠕变性能的影响.通过X射线衍射(XRD)、金相显微镜(OM)、扫描电镜(SEM)及能谱分析(EDX)观察与分析表明,压铸AZ91D镁合金中添加Ce/La后,除了α-Mg,β-Mg_(17)Al_(12)相之外,还生成了新的稀土化合物Al_(11)RE_3(RE=Ce/La)化合物,并且细化了合金显微组织、提高了合金室温和高温力学性能.生成的Al_(11)RE_3(RE:Ce/La)高温热稳定相使AZ91D+xCe/La(x=0,0.1,0.5,1.0)合金在150℃,50MPa下的蠕变抗力优于AZ91D镁合金,1%Ce/La的合金与AZ91D相比,蠕变延伸率低了0.2%,最小蠕变速率从2.30×10~(-8)s~(-1)降低到2.02×10~(-8)s~(-1).蠕变试样的微观组织结构分析表明:AZ91D合金的蠕变机制主要以晶界滑移方式为主,Al_(11)RE_3(RE=Ce/La)热稳定相在晶界处延缓和阻碍了晶界断裂的过程.
The effect of Ce/La on the microstructures and creep property of die-cast AZ91D alloys containing varied contents of Ce/ La (0%, 0. 1%, 0.5%, 1.0% ) was studied. X-ray diffraction, optical microscopy, scanning electron microscopy and energy dis-perse spectroscopy were used to analyze microstructures and creep properties of the alloys at room temperature and high temperature. Results showed that the new phase compositions of die-cast AZ91D alloys adding in a small amount of Ce/La mainly consisted of β-Mg_(17)Al_(12) and Al_(11) RE_3 ( RE = Ce/La) phases. It not only refined the microstructure and improved mechanical properties of alloy but al-so improved the creep resistant properties of alloy. Compared 1% Ce/La with AZ91D, the total strain of alloy decreased 0.2% and the minimum creep rate decreased from 2.30 × 10~(-8)s~(-1) to 2.02 × 10~(-8) s~(-1). The creep resistant of the alloy with the heat-resistant phases was superior to that of AZ91D alloy. The results indicated that the creep mechanism of AZ91D alloy was the grain boundary sliding and the heat-resistant phases postponed the process of creep resistant and improved the creep resistant properties of AZ91D alloy.
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