材料科学
钛合金
合金
成核
纳米结构
纳米尺度
极限抗拉强度
钛
相(物质)
微观结构
冶金
纳米技术
化学
有机化学
作者
Arun Devaraj,Vineet V. Joshi,Ankit Srivastava,Sandeep Manandhar,Vladimir Moxson,Volodymyr A. Duz,Curt A. Lavender
摘要
Abstract Lightweighting of automobiles by use of novel low-cost, high strength-to-weight ratio structural materials can reduce the consumption of fossil fuels and in turn CO 2 emission. Working towards this goal we achieved high strength in a low cost β -titanium alloy, Ti–1Al–8V–5Fe (Ti185), by hierarchical nanostructure consisting of homogenous distribution of micron-scale and nanoscale α -phase precipitates within the β -phase matrix. The sequence of phase transformation leading to this hierarchical nanostructure is explored using electron microscopy and atom probe tomography. Our results suggest that the high number density of nanoscale α -phase precipitates in the β -phase matrix is due to ω assisted nucleation of α resulting in high tensile strength, greater than any current commercial titanium alloy. Thus hierarchical nanostructured Ti185 serves as an excellent candidate for replacing costlier titanium alloys and other structural alloys for cost-effective lightweighting applications.
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