Influence of Composition and Aging Heat Treatment on the Microstructure and Strength of Innovative-Carbon Free 10% Cobalt-Maraging Steel Powder Composites

W. Elghazaly, O. Elkady, S. Weiss, S. Elghazaly
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Abstract

Good combinations between strength and toughness are always the aim of all researchers working in the field of material science. Maraging steel grades (200-300) are one of the well known steel alloys proved to have good strength and toughness and are known as 18% Ni-Co-Mo steel family. Maraging steels production, import, and export by certain countries such as USA is closely monitored by international authorities because it is particularly suited for use in gas centrifuges used for uranium enrichment and in aviation technology. In this research an effort is paid to produce innovative carbon-free maraging steel alloy composites that can compete the well known 18% Ni-8% Co standard (250-300) maraging steel alloy with higher strength and superior toughness. The experimental maraging steel composites having different Ni (18-25%) and Al (0.5-1.5%) together with or without Ti and Mo contents are produced by consolidation from the nano-elemental powders. The mechanism of strengthening in IronNickelCobalt-Aluminum composite alloys is studied, however, the changes in microstructures after solution treatment and aging-heat treatment are emphasized using metallurgical microscopy and SEM-TEM aided with EDX analyzing unit. The effect of induced deformation on the properties of the as-sintered samples is also studied. Fracture toughness, impact toughness, hardness, and strength are measured for all alloy composites under investigation and compared with the standard nominal properties for conventional maraging series (250-300).
成分和时效热处理对创新无碳10%钴-马氏体时效钢粉末复合材料组织和强度的影响
强度与韧性的良好结合一直是材料科学领域研究人员追求的目标。马氏体时效钢牌号(200-300)是公认的具有良好强度和韧性的钢合金之一,被称为18% Ni-Co-Mo钢族。某些国家如美国的马氏体时效钢的生产、进口和出口受到国际当局的密切监视,因为它特别适合用于铀浓缩的气体离心机和航空技术。在本研究中,致力于生产创新的无碳马氏体时效钢合金复合材料,该复合材料可以与众所周知的18% Ni-8% Co标准(250-300)马氏体时效钢合金竞争,具有更高的强度和优异的韧性。由纳米元素粉末固结制备出不同Ni(18-25%)和Al(0.5-1.5%)含量的马氏体时效钢复合材料(含或不含Ti和Mo)。研究了铁镍钴铝复合合金的强化机理,利用金相显微镜和扫描电子显微镜,结合EDX分析装置,重点研究了固溶处理和时效热处理后合金组织的变化。研究了诱导变形对烧结试样性能的影响。测量所有合金复合材料的断裂韧性、冲击韧性、硬度和强度,并与传统马氏体系列(250-300)的标准标称性能进行比较。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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