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用中子衍射技术研究了Mn1.074Al0.871C0.055永磁合金的晶体结构和磁结构,Mn1.074Al0.871C0.055为四角体心结构,从中子衍射谱线的拟合结果可以看出:0.992Mn和0.008C占据(0,0,0)晶位;0.082Mn、0.87lAl和0.047C占据(1/2,1/2,1/2)晶位,在不同晶位上的Mn原子的磁矩沿c轴方向反平行排列,把这些结果与Mn1.09Al0.91二元合金的中子衍射结果相比较,可以解释Mn1.074Al0.871C0.055三元合金的磁性和机械性能都可获得明显提高的原因。
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中子是在1932年发现的,1936年观测到中子衍射现象,那时是用Ra-Be中子源来做的实验,由于中子源弱,不能用于研究物质结构.四十年代初,美国人在阿贡(Argonne)建造了原子核反应堆,获得了强中子流,这时用中子衍射法进行结构研究才成为可能.1945年在阿贡的反应堆旁建立了世界上第一台中子衍射装置.不久,在ORNL,BNL以及英国的Harwell反应堆上也相继建立了中子衍射仪,中子衍射的?... 相似文献
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对多晶Y_3Fe_(5-x)Mn_xO_(12)(x=0.05和0.09),得到300K下的中子衍射曲线。发现当x=0.05时,Mn~(3+)离子占据16a和24d位置的几率分别为0.72和0.28;当x=0.09时,Mn~(3+)离子全部占据16a位置;还得到两种组分16a和24d位置各自的磁矩值。 在外磁场(800—10KOe)下测量Y_3Fe_(5-x)Mn_xO_(12)(x=0—0.11)的磁化曲线,温度范围是1.5—300K。得到饱和磁矩值;并利用趋近饱和定律确定1.5K下的磁晶各向异性常数k_1值,发现|K_1|值随含锰量增加而减小。 相似文献
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新型金属间化合物R_2Fe_(17)N_(2.4)的结构与磁性 总被引:2,自引:0,他引:2
本文采用适当的热处理,使氮原子进入到R_2Fe_(17)的结构中去.利用X射线衍射、磁测量和中子衍射技术研究了R_2Fe_(17)N_(24)的晶体结构和内禀磁性及其之间的联系.中子衍射研究结果表明,氮原子在Th_2Zn_(17)型菱方结构中,占据9e间隙位置.氮的加入使晶胞体积增大、Curie温度升高;使铁原子3d电子正负能带电子数目差额扩大、饱和磁矩增强;并且氮原子对稀土晶位的晶场效应有重大影响,导致Sm_2Fe_(17)N_(24)具有易磁化轴.所有这些效应使得Sm_2Fe_(17)N_(24)具备了研制高矫顽力永磁体的内禀性能. 相似文献
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We found that the nitrogen atoms can enter into the R2Fe14B structure by a proper heat treatment in nitrogen atmosphere. The crystallographic structure and magnetic properties of R2Fe14BNx, R =Nd and Y, have been investigated by using X-ray and neutron diffraction techniques as well as magnetic measurements. The neutron diffrac-tion data show that the nitrogen atoms occupy the 4f interstices. The interstitial nitrogen atoms were found to have an effect of enhancing Curie temerature, whereas, decreasing saturation magnetization and magneto-crystalline anisotropy. The rela-tionship of the crystal structure and the intrinsic magnetic properties of this crystal is discussed. 相似文献
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By a proper thermal treatment, the nitrogen atoms can enter the R2Fe17 structure. The crystallographic and intrinsic magnetic properties as well as their relationship have been studied by magnetic measurements, X-ray and neutron diffraction techniques. The neutron data indicate that the nitrogen atoms occupy the interstitial sites in the Th2Zn17-type rhom-bohedral structure. The inserting nitrogen atoms are found to dilate the cell volume, increase the Curie temperature and enhance the saturation moment by raising the difference in the electron number between the spin-up and spin-down 3d subbands of the Fe atoms. Furthermore, the nitrogen atoms have an important effect on the magnetocrystallic anisotropy, which results in an easy axis with Sm2Fe17N2.4. All these make Sm2Fe17N2.4 favorable for permanent magnet applications. 相似文献