BEHAVIORS OF THE HYPERFINE. FIELD AND THE ATOMIC MAGNETIC MOMENT IN AMORPHOUS Fe_(80-x)T_xB_(20)(T=Co,Ni,Mn,V,Ti) ALLOYS

The mean hyper fine field at the Fe nuclei in amorphous alloys Fe80-xTxB20(T=Co,Ni,Mn,V,Ti) by fitting the Moessbauer spectra is displayed. The behaviors of both the hyperfine field and the atomic magnetic moment in these amorphous alloys and the relation between both the properties are discussed.

MOSSBAUER STUDIES OF MAGNETIC ANISOTROPY OF AMORPHOUS Fe-(Co, Cr)-Zr ALLOYS

Magnetic anisotropies and hyperfine fields of amorphous a-Fe-(Co, Cr)-Zr alloys, their temperature and thermal stress effects were studied by using a Mossbauer spectroscopy. The results are in the following: A tensile stress field is easily created during the material production process, having the plane anisotropy to be increased for the alloys containing strong ferromagnetic coupling such as Fe-Co and Fe-Ni; a pressure stress field is easily produced, making the perpendicular anisotropy increase for the alloys containing antiferromagnetic coupling such as Fe-Cr and Fe-Mn. Introducing the new idea of attractive and repulsive forces, the fact was explained well that the dependence of anisotropies on the average outer electron concentration of 3d transition metal is similar to that of the average hyperfine field.

MOSSBAUER STUDY ON MAGNETIC ANISOTROPY OF AMORPHOUS ALLOY Fe_(71)Ni_(10)B_(13)Si_4C_2

Magnetic anisotropies of the amorphous alloy Fe_(71)Ni_(10)B_(13)Si_(14)C_2 annealed in magnetic field have been studied using Mossbauer spectroscopy and X-ray diffraction.It is shown that the distribution of moments in the annealed sample are determined by both stress-produced and thermomagnetic treatment-induced magnetic anisotropies.

Magnetic Properties and Hyperfine Interactions in M-Type BaFe_(12-2x)Mo_(x)Zn_(x)O_(19) Hexaferrites

A series of M-Type barium hexaferrites with the general composition BaFe12-2xMoxZnxO19 were synthesized at 1100°C by a simple wet chemical mixture route. The properties of the prepared samples were examined by X-ray diffraction, scanning electron microscopy, vibrating sample magnetometry, and Mössbauer spectroscopy. The diffraction patterns for all samples were found to agree well with the standard pattern of BaFe12O19 hexaferrite with no extraneous diffraction peaks. The products formed as well crystallized hexagonal platelet-like particles while the EDS measurements revealed the stoichiometric cationic ratios of the prepared samples. The spectral variations elucidated by Mössbauer spectroscopy were utilized to determine the different cation preferential site occupations as a function of x. Finally, the saturation magnetizations, magnetic anisotropies, and the anisotropy fields, determined from the magnetic measurements, showed consistency with the relative subspectral Mössbauer intensities and the single ion model for the anisotropy constant.

Influence of Ti^(4+) doping on hyperfine field parameters of Mg_(0.95)Mn_(0.05)Fe_(2-2x)Ti_(2x)O_4(0≤x≤0.7)

The mixed spinel ferrite system Mg0.95Mn0.05Fe2-2xTizxO4 （0 ≤x ≤ 0.7） was synthesized by the conventional solid-state reaction technique. The effect of Ti^4＋ doping was studied by using the Moessbauer spectroscopy measurements at room temperature. From the analysis of the Moessbauer spectra, it is observed that s-electron density, electric field gradient （EFG）, quadrupole coupling constant （QCC） and the net hyperfine magnetic fields acting on the Moessbauer nuclei-FeA^3＋ and FeB^3＋ change with the increase of Ti^4＋ doping in Mg0.95Mn0.05Fe2O4. The hyperfine magnetic field decreases with the increase of Ti^4＋ doping.

非晶合金Fe_(76.5-x)Cu_(1.0)Nb_xSi_(13.5)B_(9.0)的穆斯堡尔研究

非晶合金Ｆｅ７６．５－ｘＣｕ１．０ＮｂｘＳｉ１３．５Ｂ９．０（ｘ＝１，３，５和７）的穆斯堡尔研究表明，Ｎｂ元素对非晶合金的磁有序温度Ｔｃ和磁超精细相互作用有很大的影响，随着Ｎｂ含量的增加，Ｔｃ减小，ｘ＝１，３，５时分别为６５５，５９７，５２５Ｋ；但当ｘ＝７时，出现了两个Ｔｃ分别为４７０和５３９Ｋ，由所计算的磁超精细场分布Ｐ（Ｈ）表明，最大几率处的内磁场Ｈｏ和平均内磁场＜Ｈ＞都随Ｎｂ含量的增加而减小，而分布的宽度△Ｈ则反之，并出现了磁超精细场分布Ｐ（Ｈ）的低场峰，且低场的几率也随之增大，这些结果表明了Ｎｂ元素使非晶体Ｆｅ－Ｆｅ间的平均磁相互作用减弱且在非晶体中富集。

非晶态合金自旋波激发的穆斯堡尔谱研究

本文采用穆斯堡尔谱测量了非晶态(a)Fe_(70)Co_(20)Zr_(10),Fe_(80)Co_(10)Zr_(10)和Fe_(86)Co_4Zr_(10)合金在不同温度下的平均超精细场,根据Bloch T^(3/2)的关系,研究了它们的自旋波激发,得到了其对应的B_(3/2)值分别为:0.40±0.02,0.45±0.02和0.88±0.04。比较晶态、a-Fe-(Co,Ni)-M(类金属)、Fe-(Cr,Mn,V)-M及非晶态Invar合金四大类样品的B_(3/2)值,发现它们之间有很大的差异,使用结构涨落和空间排列的无序性可以很好地解释上述的实验结果。本工作也较好地解释了非晶态Invar合金中由中子非弹性散射和磁化强度测量所获得的自旋波劲度常数的差异。

软磁Fe基纳米微晶的穆斯堡尔谱研究

对纳米软磁合金Fe_(73)Cu_1Nb_(1.5)Mo_2Si_(12.5)B_(10)的制备态和各退火态的室温Mossbauer谱研究,发现非晶相的超精细内场存在高场和低场两部分,表明在析出的α-FeSi纳米晶粒和剩余的非晶相之间存在一个弱磁界面层,并且定量地研究了该界面层随退火温度的变化。此界面层对软磁纳米微晶的磁性质会产生重要的影响。

金属间化物R_2Fe_（17）N_y（R＝Sm，Dy，Er，Y）的变温穆斯堡尔

主要通过穆斯堡尔谱测试手段研究金属间化物Ｒ＿２Ｆｅ＿（１７）Ｎｙ（Ｒ＝Ｓｍ，Ｄｙ，Ｅｒ，Ｙ）磁性能的温度效应以及各向异性产生机制．由实验结果得出以下结论：１）Ｒ＿２Ｆｅ＿（１７）Ｎｙ（Ｒ＝Ｓｍ，Ｄｙ，Ｅｒ，Ｙ）的Ｒ－Ｆｅ之间耦合机制为：Ｓｍ－Ｆｅ之间为铁磁耦合，Ｄｙ－Ｆｅ之间为亚铁磁耦合，Ｅｒ－Ｆｅ之间为反铁磁耦合，Ｙ－Ｆｅ之间无铁磁耦合；２）在室温下，只有Ｒ＿２Ｆｅ＿（１７）Ｎ＿ｙ呈现强单轴各向异性，其它Ｒ＿２Ｆｅ＿（１７）Ｎｙ（Ｒ＝Ｓｍ，Ｄｙ，Ｅｒ，Ｙ）化合物则呈现平面各向异性；３）Ｒ＿２Ｆｅ＿（１７）Ｎｙ（Ｒ＝Ｓｍ，Ｄｙ，Ｅｒ，Ｙ）的平均同质异能移和平均磁超精细场随温度降低而增加；４）由低温８０Ｋ的实验数据推出Ｓｍ２Ｆｅ１７Ｎｙ的饱和原子磁矩为２．５３μＢ，Ｙ２Ｆｅ１７Ｎｙ的饱和原子磁矩则为２．３９μＢ。

永磁材料SmTiFe_(11-x)Co_x的磁性及穆斯堡尔谱的研究

用X射线衍射、扫描电镜和等离子体发射电子谱研究了SmTiFe_((?)-x)Co_x(0≤x≤5)的组分及结构,其主相为ThMn_(12)型的结构相,同时包含杂质相α-Fe和TiFe_2;穆斯堡尔谱分析表明Co原子择优取代8f,8j晶位的Fe原子;随着Co含量的增加,在x≈2处,单位质量的饱和磁化强度有一最大值,为112.3Am^2/kg;居里温度随Co含量的增加而增加;粗略推出SmTiFe_(?)的德拜温度约400K。

非晶态合金Fe_(71)Ni_(10)B_(13)Si_4C_2磁各向异性的Mssbauer谱研究

本文研究了Fe_(71)Ni_(10)B_(13)Si_4C_2非晶态合金在磁场退火时的反常磁各向异性变化。结果表明,在430℃磁场热处理时优先发生了表面晶化现象,导致垂直磁各向异性的反常增大。磁矩取向的择优性取决于压应力引起的和磁场热处理感生的两种磁各向异性。

SmTiFe_(11-x)Co_x的穆斯堡尔谱研究

应用^(57)Fe穆斯堡尔谱、X射线衍射和有关的磁测量手段研究了SmTiFe_(11-x)Co_x间化物系列,这里Co的组分X为0—5。当X≥1,在间化物SmTiFeCo_x中的钴原子随机地占据各晶位.通过测量还获得了实验样品SmTiFeCo_x中钴含量X与其超精细场的依从关系和样品SmTiFe的超精细场随温度变化的关系。

BaFe_(12-2x)Ti_xCo_xO_(19)微粒磁粉的穆斯堡尔谱学研究

采用有机金属化合物方法制备了4种BaFe_(12-2x)Ti_xCo_xO_(19)(x=0.0,0.2,0.5和0.7)微粒磁粉,并用穆斯堡尔谱学和x衍射分析等方法对它们进行了研究。结果表明,在0.0≤x≤0.7范围内,磁粉中超精细场Hi和同质异能移位IS的大小顺序为:Hi(4f_2)>Hi(2α)>Hi(4f_1)>Hi(12k)>Hi(2b)和IS(2α)>IS(4f_2)>IS(12k)>IS(4f_1)>IS(2b)。在0.0≤x≤0.5范围内,当x增大时,位于12k亚晶格的Fe明显地为Co和Ti所替代。

金属间化物（Sm_（1－x）Y_x）_2Fe_（17）N_y磁性能的穆斯堡尔谱

本文主要通过穆斯堡尔谱研究金属间化物（Ｓｍ１－ｘＹｘ）２Ｆｅ１７Ｎｙ（ｘ＝０，０．２，０．４，０．６，０．８和１．０；２＜ｙ＜３）中Ｙ原子对Ｓｍ原子的替代效应以及Ｎ原子的占位问题。研究结果表明，氮原子在以上氮化物中不仅占据９ｅ（６ｈ）晶位，还将占据１８ｇ（３ｂ）晶位。由实验结果我们可以得出以下结论：１）当ｘ＞０．５时，晶体结构发生变化；２）（Ｓｍ１－ｘＹｘ）２Ｆｅ１７Ｎｙ化合物各个铁晶位的平均磁超精细场随Ｙ含量的不同而有变化；３）按照穆斯堡尔谱拟合结果，（Ｓｍ１－ｘＹｘ）２Ｆｅ１７Ｎｙ化合物在Ｙ含量ｘ为０～０．８的范围内都呈现易Ｃ轴各向异性。

μSR技术与穆斯堡尔谱学

本文对近年来发展起来的μSR技术(μ子自旋转动)进行了介绍,并与穆斯堡尔谱学进行了比较,最后讨论了μSR技术在磁学中关于内磁场的测量和自旋动力学方面的研究应用。

富Fe非晶态Fe_（90－x）Co_xZr_（10）合金掺氢、低温和外加磁场效应的穆斯堡尔谱研究

利用穆斯堡尔谱学方法研究了非晶态Ｆｅ９０－ｘＣｏｘＺｒ１０（Ｘ＝０，４，１０，２０）合金的掺氢、低温和外加磁场的效应。结果表明，掺氢和低温作用都使样品的平均超精细场增加，但接氢使平面磁各向异性Ｐ增加．低温却使Ｐ减小；四合金的超精细场都是双峰分布．对应于铁磁和厦铁磁性耦合，掺氢和外加磁场都使反铁磁性耦合的含量减少；随着Ｃｏ含量的减少，掺氢和低温效应更为强烈，这同样被自旋波激发和平均超精细场随掺氢时间变化的差异所证实。采用“３ＤＦＭ＋ＦＳ＋ＦＳＣ”模型和磁偶极相互作用的磁各向异性模型解释了实验结果。

非晶态合金Fe_(47)Ni_(32)V_(1.5)Si_6B_(13.5)的穆斯堡尔谱学研究

本文用穆斯堡尔谱学、X射线衍射和差热分析等方法对非晶态合金Fe_(47)Ni_(32)V_(1.5)Si_6B_(13.5)的磁各向异性和晶化过程进行了研究。研究发现:当退火温度升高到375℃以上时该合金体内开始出现平面磁各向异性的迅速增加;当退火温度升高到500℃时,合金体内开始析出一些亚稳态晶相;而当退火温度更高时,其中一个亚稳态晶相α-Fe(Ni)合金首先消失。晶化的最终产物是三个稳定态晶相。

Co－Sn替代钡铁氧体的穆斯堡尔谱研究

对Ｃｏ－Ｓｎ替代钡铁氧体系列样品进行了室温下的￣（５７）Ｆｅ穆斯堡尔谱测试，给出了各子谱的相对强度、各晶位的超精细磁场与替代浓度的关系．ＭＳ结果表明，Ｃｏ－Ｓｎ对Ｆｅ原子的取代是在１２ｋ晶位上进行的．采用晶场作用下的单粒子模型，由ＭＳ结果出发，对宏观磁性浓度的变化作了理论分析，所得结论与宏观磁性测量结果相一致．

A CEMS STUDY OF 9Cr18 STAINLESS STEEL

Ⅰ. EXPERIMENT9Crl8 ball-bearing stainless steel has the following composition:C, 1 wt%; Cr, 18 wt%; Mn, 0.1 wt%; Si, 0.8 wt%; S, 0.03 wt%; P, 0.03 wt%, besides Fe. Its abilities of antichemical erosion and antielectrical-chemical erosion are due to the high content of Cr in it. In order to obtain high hardness and high wear resistance, higher content of C is included. Si is in