1) L1_0 phase
L10相
2) L10 ordered phase
L10有序相
3) martensite (Llo)
马氏体相(L10)
4) L10-FePt ordered phase
L10-FePt有序相
5) L10-TiAl
L10-TiAl合金
1.
Site substitution of 4d transition metal(TM) elements in L10-TiAl intermetallic compound were investigated with the first-principle method based on plane-wave pseudopotential theory.
通过对Ti7Al8X与Ti8Al7X超胞的合金形成能的计算、比较与分析发现:合金化元素的外层电子数,特别是外层的d电子数对其在L10-TiAl合金中的占位有非常明显的影响,d电子数较少的前过渡金属Y,Zr,Nb和Mo主要优先占据Ti原子位,而d电子数较多甚至是满d壳层的Rh,Pd,Ag和Cd则主要优先占据Al原子位。
2.
Site substitution of 3d transition metal(TM) elements in L10-TiAl intermetallic compound were investigated with the first-principle method based on plane-wave pseudopotential theory.
通过计算、比较、分析Ti7Al8X与Ti8Al7X超胞的合金形成能,得出3d过渡金属在L10-TiAl合金中的占位情况:合金化元素的外层电子数,特别是外层的d电子数对其在L10-TiAl合金中的占位有非常明显的影响,d电子数较少的前过渡金属Sc、V和Cr主要优先占据Ti原子位,而d电子数较多甚至是满d壳层的Mn、Fe、Co、Ni、Cu和Zn则主要优先占据Al原子位。
6) L1_0-FePt/Ag
L10-FePt/Ag
1.
L1_0-FePt/Ag granular films with perpendicular magnetic anisotropy and high coercivity have been obtained after vacuum annealing the multilayers deposited on substrates kept at 250 ℃ for 15 min.
用磁控溅射法在单晶MgO(100)基片上制备了[FePt2nm/Agdnm]10多层膜,经真空热处理后,得到具有高矫顽力的垂直取向L10-FePt/Ag颗粒膜。
补充资料:10,10'-oxybis-10H-Phenoxarsine
分子式:C24H16As2O3
分子量:502.2318
CAS号:58-36-6
性质:暂无
制备方法:暂无
用途:暂无
分子量:502.2318
CAS号:58-36-6
性质:暂无
制备方法:暂无
用途:暂无
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
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