高压扭转对铁钇合金组织和性能的影响

Effects of High Pressure Torsion on Microstructure and Properties of Yttrium Iron Alloy

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摘要综述了应用高压扭转(HPT)技术的铁钇合金组织和性能的变化。研究结果表明,经过HPT后的铁钇合金能获得致密度较好的纳米级晶粒,呈大角度晶界。由于塑性变形导致其硬度明显增加,且由于应变的不同分布使硬度值从中心到边缘呈上升趋势;经过HPT处理后的晶粒与晶粒间Y元素的加入可以有效地在退火过程中抑制晶粒的长大。根据VSM的测定得出软磁材料具有很高的饱和磁感应强度、较低的矫顽力和较小的磁滞回线面积,经过HPT处理后的晶粒能够获得更大的饱和磁感应强度;随着Y原子含量的增加,高压扭转铁基纳米晶软磁材料的比饱和磁感强度减小,矫顽力增大。然而,随着退火温度的升高,比饱和磁感强度增大,矫顽力减小。 The change of microstructure and properties of yttrium iron alloy processed by HPT technique is summarized. The results show that yttrium iron alloy can get the nanoscale grains with better density after HPT to present the large angle grain boundaries. Plastic deformation leads to significant increase of hardness which its value increases from center to edge due to the different distribution of strain. Grain after HPT treatment and adding Y element between grains can effectively inhibit grain growing up during annealing. Soft magnetic material has very high saturation flux density,lower coercivity and smaller hysteresis loop area according to the result measured by VSM,and grains can get greater saturation flux density after HPT. With Y atom content increases,specific saturated magnetic induction intensity of nanocrystalline soft magnetic material after HPT decreases,and the coercivity increases. However,with the annealing temperature increasing,the specific saturation magnetic induction intensity increases and the coercivity decreases.

作者王梦得康鹏超武高辉许鲁江张孟孟 WANG Meng-de KANG Peng-chao WU Gao-hui XU Lu-jiang ZHANG Meng-meng(School of Materials Science and Engineering, Harbin Institute of Technology,Harbin Heilongjiang 150001 ,China)

机构地区哈尔滨工业大学材料科学与工程学院

出处《热处理技术与装备》 2016年第5期26-29,共4页 Heat Treatment Technology and Equipment

关键词高压扭转(HPT) 铁基纳米晶细化晶粒显微组织软磁材料磁性能 high pressure torsion（HPT） iron based nanocrystalline grain refinement microstructure soft magnetic materials magnetic

分类号 TG141 [金属学及工艺—金属材料]

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高压扭转对铁钇合金组织和性能的影响

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