The effect of Ce, Co, and B on the formation of 1:13 phase in La(Fe, Si)13 alloys was investigated by XRD, SEM and EDS. The results show that Co can improve the formation of 1:13 phase in as-cast LaFe11.6-xCoxSi1....The effect of Ce, Co, and B on the formation of 1:13 phase in La(Fe, Si)13 alloys was investigated by XRD, SEM and EDS. The results show that Co can improve the formation of 1:13 phase in as-cast LaFe11.6-xCoxSi1.4 alloys, but in as-cast and annealed LaFe11.6Si1.4-xCox alloys, it will hamper the formation of 1:13 phase and help the formation of a-Fe(Co, Si) solid solution. Ce2Fel7 phases will form when x reaches a certain value in as-cast and annealed La1-xCexFe11.5Si1.5 alloys. B can improve the formation of 1:13 phase accompanied with Fe2B phase in as-cast LaFe11.6-xBxSi1.4 alloys. B improves the formation of a-Fe solid solution in LaFe11.6Si1.4-xBx alloys, and there is almost only a-Fe in as-cast and annealed LaFe11.6Si0.9B0.5 alloy. In all, the introduction of Co, B, and Ce cannot eliminate the a-Fe phases in corresponding alloys prepared by the high-temperature and short-time annealing process.展开更多
研究了电弧熔炼过程中LaFe13-xSix合金的凝固行为。应用XRD和扫描电镜分析了合金组织相组成和结构。结果表明:电弧熔炼铸锭随温度梯度出现分层;La(Fe,Si)13(简称:1∶13)相是包晶反应生成的,冷速和硅含量变化对合金的凝固行为有很大的影...研究了电弧熔炼过程中LaFe13-xSix合金的凝固行为。应用XRD和扫描电镜分析了合金组织相组成和结构。结果表明:电弧熔炼铸锭随温度梯度出现分层;La(Fe,Si)13(简称:1∶13)相是包晶反应生成的,冷速和硅含量变化对合金的凝固行为有很大的影响,当Si含量x≤1.0时合金显微组织由α-(Fe,Si)相和共晶相La Fe Si(简称:1∶1∶1)相组成,α-(Fe,Si)(简称:α-Fe)相为主要相,随硅含量增加1∶1∶1相增多;x≥1.5时由α-Fe相、1∶13相和1∶1∶1相组成;随x增加1∶13相为主要相,1∶1∶1相减少;当x≥2.0时显微组织中1∶13相作为初生相析出,且随温度梯度和硅含量变化1∶13相的形貌不同。展开更多
基金Project(51176050)supported by the National Natural Science Foundation of ChinaProject(12ZB073)supported by the Research Projects in Sichuan Province Education Office,China
文摘The effect of Ce, Co, and B on the formation of 1:13 phase in La(Fe, Si)13 alloys was investigated by XRD, SEM and EDS. The results show that Co can improve the formation of 1:13 phase in as-cast LaFe11.6-xCoxSi1.4 alloys, but in as-cast and annealed LaFe11.6Si1.4-xCox alloys, it will hamper the formation of 1:13 phase and help the formation of a-Fe(Co, Si) solid solution. Ce2Fel7 phases will form when x reaches a certain value in as-cast and annealed La1-xCexFe11.5Si1.5 alloys. B can improve the formation of 1:13 phase accompanied with Fe2B phase in as-cast LaFe11.6-xBxSi1.4 alloys. B improves the formation of a-Fe solid solution in LaFe11.6Si1.4-xBx alloys, and there is almost only a-Fe in as-cast and annealed LaFe11.6Si0.9B0.5 alloy. In all, the introduction of Co, B, and Ce cannot eliminate the a-Fe phases in corresponding alloys prepared by the high-temperature and short-time annealing process.
文摘研究了电弧熔炼过程中LaFe13-xSix合金的凝固行为。应用XRD和扫描电镜分析了合金组织相组成和结构。结果表明:电弧熔炼铸锭随温度梯度出现分层;La(Fe,Si)13(简称:1∶13)相是包晶反应生成的,冷速和硅含量变化对合金的凝固行为有很大的影响,当Si含量x≤1.0时合金显微组织由α-(Fe,Si)相和共晶相La Fe Si(简称:1∶1∶1)相组成,α-(Fe,Si)(简称:α-Fe)相为主要相,随硅含量增加1∶1∶1相增多;x≥1.5时由α-Fe相、1∶13相和1∶1∶1相组成;随x增加1∶13相为主要相,1∶1∶1相减少;当x≥2.0时显微组织中1∶13相作为初生相析出,且随温度梯度和硅含量变化1∶13相的形貌不同。