A Ni-hardened high-hardness wear-resistant alloy and its casting method are described. The content of each element in the alloy is Cr: 9.0-13.0, B: 2.6-2.9, C: 0.7-0.9, Ni: 0.6-1.5, Nb: 0.4-0.8, V: 0.4-0.8, Mn < 0.3, Si < 0.07, and the remainder is Fe. The alloy was prepared by induction furnace melting at 1 550-1 650 C after the corresponding raw materials were weighed according to the composition requirement, and then the melt temperature was reduced to 1 300-1 350 C, then the alloy was deoxidized by pure aluminium with 0.1-0.15% of the total ingredients, and the alloy was kept for 5-10 minutes. The average hardness of the ingot prepared by the invention is HRC68.8 to 70.9, and the impact toughness is 10.2 to 13.8J/cm.
【技术实现步骤摘要】
一种Ni硬化高硬度耐磨合金及其铸造方法
本专利技术属于高硬度耐磨铸铁领域,涉及一种含超细硬质相和过饱和固溶体、马氏体基体相的耐磨耐蚀铸铁的合金及其构件制备方法,可广泛用于电力、冶金、机械、化工等行业中机械耐磨件制造。技术背景Fe-Cr-B-C耐磨铸造合金是以Fe2B或M2B硬质相为硬质相,具有良好的韧性和高硬度、高耐蚀性,熔炼-铸造工艺性好,具有十分广阔的应用前景。专利文献1:授权公告号CN105695884B,制备的耐磨合金硬度为HRC66~70,冲击韧性4~9J/cm2。该类合金的硬度较高,但冲击韧性不足,强度指标较低,抗弯强度较低,在346~477MPa范围,因此限制了该合金应用于一些外部载荷大、需要耐冲击力作用的场合。文献2:共晶Fe-Cr-B-C合金的快冷组织与性能,铸造,2017,66(10):1053~1056。铸态Fe-Cr-B-C合金的快冷组织由马氏体+残余奥氏体基体和沿晶界连续网状分布的(Fe,Cr)2(B,C)+(Fe,Cr)23(B,C)6硬质相组成。快冷组织基体相的显微硬度为800~880HV,硬质相显微硬度为1150~1400HV,...
【技术保护点】
1.一种Ni硬化高硬度耐磨合金,其特征在于:合金中各元素的质量百分含量为Cr:9.0~13.0,B:2.6~2.9,C:0.7~0.9,Ni:0.6~1.5%,Nb:0.4~0.8,V:0.4~0.8,Mn的含量小于0.3,Si的含量小于0.07,S、P:≤0.01,余量为Fe。其中C、B总和:3.3~3.6;C/Cr质量比:0.06~0.08;Nb、V的总和为0.5~1.0。
【技术特征摘要】
1.一种Ni硬化高硬度耐磨合金,其特征在于:合金中各元素的质量百分含量为Cr:9.0~13.0,B:2.6~2.9,C:0.7~0.9,Ni:0.6~1.5%,Nb:0.4~0.8,V:0.4~0.8,Mn的含量小于0.3,Si的含量小于0.07,S、P:≤0.01,余量为Fe。其中C、B总和:3.3~3.6;C/Cr质量比:0.06~0.08;Nb、V的总和为0.5~1.0。2.如权利要求1所述的Ni硬化高硬度耐磨合金的制备方法,其特征在于:按照成分要求配比称量好相应原材料后...
【专利技术属性】
技术研发人员:罗丰华,吴若晴,熊落保,周海铭,杨昊,卢静,
申请(专利权)人:中南大学,
类型:发明
国别省市:湖南,43
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