利用点阵占用计划开发超高硬度合金

Thomaz Augusto Guisard Restivo, G. Restivo
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引用次数: 0

摘要

基于采用9种不同元素的晶格占用项目,开发了新型金属合金。铬当量方程是选择合金元素的关键参数,因为所选元素的系数越高,体心立方场就会膨胀和稳定。合金项目中的另一个假设概念是考虑同一元素在摩尔碱中重复3次,将元素数量减少到7。通过扫描电镜和x射线衍射对合金进行了表征,发现合金中存在2 ~ 3个以立方相为中心的主晶体。铸态合金和渗碳合金的硬度在1420hv ~ 2507hv之间,具有较好的韧性。这种新合金是人类已知的最硬的金属材料,具有广阔的应用前景。
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Development of Extreme Hardness Alloys by Lattice Occupancy Project
New metallic alloys were developed based on lattice occupancy project employing 9 distinct elements. Chromium equivalent equation is the key parameter on selecting the alloy elements in the sense that higher coefficient of chosen element will expand and stabilize the body centred cubic field. Other assumed concept in the alloy project considers one same element repeated 3 times at molar base, reducing the number of elements to 7. The alloys were characterized by scanning electron microscopy and X-ray diffraction, revealing there are 2 or 3 main crystalline body centred cubic phases. As-cast and carburized alloys of extreme hardness were obtained from 1420 HV to 2507 HV with reasonable toughness. The new alloys are the hardest metallic materials known to mankind, with promising applications.
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