Mssbauer and electron microscopy study of martensitic transformations in an Fe-Mn-Mo alloy

The kinetic,morphological,crystallographic,and magnetic characteristics of thermally induced martensites in Fe-13.4wt% Mn-5.2wt%Mo alloy were investigated by scanning electron microscopy（SEM）,transmission electron microscopy（TEM）,and M（o｜¨）ssbauer spectroscopy.The experimental results reveal that two types of thermal-induced martensites,e（hcp） andα＇（bcc） martensites,are formed in the as-quenched condition,and these transformations have athermal characters.Mo addition to the Fe-Mn alloy does not change the coexistence ofεandα＇ martensites with the Mn content between 10wt%and 15wt%.Besides,M（o｜¨）ssbauer spectra reveal a paramagnetic character with a singlet for theγ（fcc） austenite andεmartensite phases and a ferromagnetic character with a broad sextet for theα＇ martensite phase. The volume fraction ofα＇ martensite forming in the quenched alloy is much more than that of theεmartensite.

羟基磷灰石／多孔钛复合植入体-骨界面FE-SEM分析

羟基磷灰石，多孔钛复合植入体．骨界面上骨组织的早期生长状况对该时期它们的界面结合强度有较大影响．羟基磷灰石／多孔钛复合植入体被植入新西兰大白兔股骨窠申，经1，3和5周生长后，进行推出试验，并采用FE-SEM和EDS对试验后样品的断裂面形貌和表面成分进行了研究。结果显示，剪切强度随着植入时间的增加较快递增．同时随着时间的增加，植入体．骨的断裂界面上，组织形态发生了较大的变化，表现为组织变得致密以及厚度增加，并逐渐钙化，形成骨组织。

加速电压和工作距离对FESEM图像质量影响探析

本文通过对比测试实验方法,研究了加速电压和工作距离对FESEM成像质量的影响规律。实验结果表明,扫描电镜的加速电压高低和工作距离大小与图像质量有明显关联,加速电压过高或过低都会对图像产生不利影响,而工作距离过大或过小也同样影响图像的清晰度。基于阿贝理论,分别探讨了加速电压和工作距离对扫描电镜图像质量的影响的物理本质。

应用XRF-SEM-XRD-FTIR等分析测试技术研究丽水蓝色类欧泊(蛋白石)的矿物学与光学特征

直至目前,我国相关欧泊的矿藏及其相应的矿物学特征鲜见报道,2013年末在浙江丽水缙云地区发现的蓝色类欧泊石引起了宝玉石科研工作者的广泛关注,但此矿物的相关研究至今尚未见论述。本文应用X射线荧光光谱(XRF)、场发射扫描电镜(FE-SEM)结合X射线粉晶衍射(XRD)与傅里叶变换红外光谱(FTIR)等多种综合检测技术首次对该类蓝色原矿的矿物学及光学变彩性质进行研究。结果表明:XRF分析显示蓝色原矿的主体化学组成为SiO 2(质量含量95%),仅含极少量的Fe2O3与Al2O3等杂质。同时,蓝色原矿及其相应的热处理后样品局部区域具有明显的变彩特征,主体的化学组成与其光学特征与天然欧泊的组成及变彩效应类同。XRD分析显示原矿粉体的无机相的晶型为方石英相,衍射峰形锐化,该晶体的结构特征明显相异于天然欧泊即微晶类蛋白石(Opal-CT)、Opal-C与非晶类蛋白石(Opal-A)。此外,样品的红外光谱与天然欧泊比较存在一定的频率位移。鉴于此,初步将该类原矿归属为类欧泊,因蓝色原矿所在地丽水缙云地区属于中生代陆相火山岩的地质,因此进一步将该原矿命名为一类火山岩类的类欧泊石,而有关此类欧泊是否可以归属为广义上的欧泊有待商榷。同时基于对蓝色原矿有无变彩效应区域的FE-SEM测试结论,本文初步推测该类矿物的光学变彩特征与原矿表面的"叠瓦状"结构形貌有关。

场发射扫描电镜研究实验条件对片形Fe@Ag复合粒子表面形貌的影响

利用场发射扫描电子显微镜(FESEM)研究了用液相化学还原银技术制备片形Fe@Ag核壳复合粒子过程中的反应条件(还原剂的种类、表面活性剂的浓度、pH值、反应温度、粉体的装载量)对Fe@Ag复合粒子表面形貌的影响规律。结果表明FESEM在该研究工作实验条件的优化和选择过程中发挥了重要的作用。

Fe-ZnO(000)体系的界面化学作用及表面形貌

采用同步辐射光电子能谱、原子力显微镜及场发射扫描电镜等技术研究了3 nm Fe薄膜在极性ZnO(000)表面的沉积和退火过程中的界面化学过程.结果表明:在低覆盖度下,Fe价层电子与极性ZnO表面间存在较强电子迁移作用;当覆盖度超过1个原子层后,Fe与ZnO的反应在热力学上被禁阻;室温下Fe在表面形成直径约为20 nm的岛状结构,通过对样品退火处理,发现Fe-ZnO在600℃时开始发生强烈作用,形成Fe的氧化态峰,并于800℃完全转换为Fe2+,随着退火温度的继续提高,Fe有继续向Fe3+转变的趋势,并在ZnO表面形成直径120 nm左右的氧化物岛结构.

应用FTIR-SEM研究一类合成欧珀的微结构及其变彩成因机制

近些年来,相关人工合成欧泊的研究工作主要聚焦于天然与合成欧泊的鉴别与筛选,而相关合成欧泊的微结构、变彩机制及其中水的赋存状态的深入研究鲜见报道。本文通过傅里叶变换红外光谱(FTIR)、场发射扫描电镜(FE-SEM)对一类合成欧泊的微结构、结构缺陷进行较系统的研究。同时,结合对样品的热处理就该合成欧泊体色、变彩机制及其中水的赋存状态作了初步探讨。结果表明:该样品的红外光谱中,在约2900 cm^(-1)、1737 cm^(-1)处出现合成欧泊特征吸收,且在4000~6000 cm-1波段,合成欧泊相比天然欧泊的吸收峰更为复杂。合成欧泊的颜色由体色与变彩两者共同构成,该体色与存在于其微结构中准球状、粒径约205 nm的二氧化硅颗粒的间隙填充物直接关联,且在热处理条件下随着间隙物的析出而渐退。同时,该类合成欧泊的变彩归因于结构致色并由其内部SiO_2颗粒周期性排列而构成的三维的光子带隙结构所致。此外,在欧泊的微观结构发生重构前,变彩所呈现的颜色主要由准球状二氧化硅颗粒粒径与间隙填充物决定。

Couple analyzing the acoustic emission characters from hard composite rock fracture

Rock mass is fractured media. Its fracture is a nonlinear process. Theaccumulation of acoustic emission (AF) is closely related to the degree of damage. The dynamicsproblem is simply described based on the non-equilibrium statistical theory of crack evolvement,trying to use the hybrid analysis of the statistical theory and scan electron microscopy (SEM), thecharacters of AE signals from rock damage in a mined-out area is synthetically analyzed andevaluated. These provide an evidence to reverse deduce and accurately infer the position of rockfracture for dynamical hazard control.

INFLUENCE OF MAGNETIC FIELD ON ACCURACY OF ECM BY CHANGING THE CONDUCTIVITY OF ANODE FILM

The change of conductivity, thickness and scanning electron microscopy （SEM） appearance of the anode film of CrWMn in 10% NaNO3 at different anode potential either with or without the magnetic field applied are investigated by testing film resistance, galvanostatic transient and using SEM to design magnetic circuit in magnetic assisted electrochemical machining （MAECM）. The experiments show that the anode film has semi-conducting property. Compared with the situation without magnetic field applied, the resistance of the film formed at 1 .SV （anode potential） increased and decreased at 4.0V while B=0.4T and the magnetic north pole points toward anode. The SEM photo demonstrates that the magnetic field will densify the film in the passivation area and quicken dissolution of the anode metal in over-passivation area. Based on the influence of magnetic field on electrochemical machining（ECM） due to the changes of the anode film conductivity behavior, the magnetic north pole should be designed to point towards the workpiece surface that has been machined. Process experiments agree with the results of test analysis.

Characterization of microstructural features of Tamusu mudstone

Tamusu mudstone formation, located in the Alxa area in western Inner Mongolia, is considered a potential host formation for high-level radioactive waste(HLW) underground disposal in China. In this study, complementary analyses with X-ray diffraction(XRD), field emission scanning electron microscopy(FE-SEM), mercury intrusion porosimetry(MIP), and N_(2) physisorption isotherm were conducted on the Tamusu mudstone to characterize its physical characteristics and microstructural features, such as mineral compositions and pore structure. Several minerals, including carbonates, feldspar, clays and analcime, were identified in Tamusu mudstone by XRD. Images from FE-SEM show that pores in the Tamusu mudstone were dominantly on nanometer scale and generally located within their mineral matrix or at the interface with non-porous minerals. The combination of the MIP and N_2 physisorption curves indicated that the Tamusu mudstone has diverse pore sizes, a porosity varying from 2.34% to 2.84%, and a total pore volume in the range of 0.0065—0.0222 cm^(3)/g with the average pore diameter ranging from 9.6 nm to 19.23 nm. The specific surface area measured by MIP(2.572—5.861 m^(2)/g) was generally higher than that by N_(2) physisorption(1.29—3.04 m^(2)/g), due to the pore network effect, pore shape(e.g. ink-bottle shape), or technique limits. The results related to pore information can be applied as an input in the future to model single-or multi-phase fluid flow and the transport of radionuclides in porous geomedium by migration and diffusion.

HDDR处理过程中NdFeB粉末的相分解显微组织及磁各向异性

利用装有场发射电子枪的高分辩扫描电子显微镜 (FE- SEM)和透射电子显微镜 (TEM) ,研究了 Nd12 .6Fe余 Co17.4B7.0 Zr0 .1Ga0 .3 合金在 HDDR处理过程中氢化相变分解后的混合显微组织。发现其显微组织是一种在 α- (Fe,Co)基体上分布着纤维状的 Nd H2 和球状的 Nd H2 相构成的组织。纤维状 Nd H2相的体积百分比和 α- (Fe,Co)的尺寸随 (HD)处理温度的提高而增加。同时当氢化相变分解 (HD)温度升高时 ,(Fe,Co) 2 B相消失转而形成新相 (TE相 )。在 HDDR处理过程中氢化相变分解后添加一段 Ar气氛下的等温处理 (IA处理 )可使 HDDR粉末的磁各向异性得到改善 ,其显微组织中纤维状 Nd H2 相的体积百分数减少 ,而 α- (Fe,Co)晶粒尺寸增加 ,伴随着 (Fe,Co) 2 B消失。这些现象表明氢化相变分解后组织结构中 α- (Fe,Co)晶粒尺寸的增大有利于

Metallic phases of Dong Ujimqin mesosiderite:A field emission scanning electron microscope study

The microstructure of Fe-Ni metallic phases in Dong Ujimqin mesosiderite was studied using the field emission SEM. Taenite is characterized by a zoned structure, consisting of outer clear taenite and inner cloudy zone (CZ). CZ has a typical 'island-honeycomb' microstructure. The average size of the island phase is about 358 nm, suggesting a cooling rate of～0.5℃/Ma at low temperature (【400℃). The Ni concentration profiles across kamacite and zoned taenite were also measured by electron probe microscope analysis (EPMA). Formation of the Fe-Ni metallic phases, microstructure in Dong Ujimqin mesosiderite was discussed based on the new low-temperature Fe-Ni phase diagram.

基于孢粉学及花瓣微观形态学的玫瑰花品种的鉴定

目的对6种玫瑰花花粉粒、花瓣进行显微特征观察,以期为玫瑰花显微鉴定与品种划分提供参考。方法通过使用光学显微镜及扫描电子显微镜对6种玫瑰花的花粉粒和花瓣形貌进行观察,并对花粉粒的9个孢粉学特征指标进行量化分析。结果6种玫瑰花的花粉粒类型均为等级单粒的N_(3)P_(4)C_(5)型,均具沿极轴方向向两极延伸的条状纹饰。其孢粉学数据结果显示:内孔宽度(We)变异系数过大,不能作为鉴别依据;其它指标包括极轴长(P)、赤道轴长(E)、P/E值、外孔长度(Le)、花粉壁沿极轴长度(Exp)、花粉壁沿赤道轴长度(Exe)、花粉壁沿极轴相对厚度(Exe/P)以及花粉壁沿赤道轴相对厚度(Exe/E)差异明显,可综合应用对6种玫瑰花进行品种鉴定。6种玫瑰花花瓣近轴面乳突结构及远轴面条纹形成的盘状结构差异较大,可作为6个品种的鉴别依据。结论从微观角度对6种玫瑰花花瓣微形貌、花粉粒特征及孢粉学研究,为不同品种玫瑰花的鉴别提供了参考依据。

场发射扫描电镜的科学管理与规范操作

扫描电镜具有分辨率高、信号稳定、操作简便等优点,可观察试样的微观形貌,在材料测试中起着重要的作用。扫描电镜主要由真空系统、电子光学系统、显示系统以及附属设备等组成。随着科技的不断发展,扫描电镜变得越来越普及,多数操作人员缺乏系统性的培训,操作水平参差不齐,对设备维护方面不够了解。以FEI Nova NanoSEM 450型场发射扫描电镜为例,介绍了该设备的一系列科学管理与规范操作方法,以期为相关操作人员提供参考。

扫描电镜中透射-反射式STEM明场成像装置的研制及应用

本文研制了一套透射-反射式扫描透射(STEM)明场成像装置,该装置使用背散射电子探头接收经过铂片反射的透射电子信号,可安装在FEI Quanta FEG系列扫描电镜中实现STEM明场成像。分别以埃洛石、Au@ZIF-8纳米颗粒和喷金乳胶标样验证自制STEM明场成像装置的实用性。结果表明:埃洛石STEM明场像的衬度与透射电镜中STEM明场像一致,管腔和管壁具有明显的衬度差异,可以清晰辨识管腔结构;在Au@ZIF-8纳米颗粒的STEM明场像中,Au颗粒衬度较暗,ZIF-8衬度较亮,通过两者之间的衬度差异可以观察到核壳结构;喷金乳胶标样上纳米金颗粒之间可识别的最小距离为2.03 nm,进一步验证了自制STEM明场成像装置具有较高的分辨率。

A Pioneering Approach to the Synthesis of Silver Nanoparticles

Our research introduces a groundbreaking chemical reduction method for synthesizing silver nanoparticles, marking a significant advancement in the field. The nanoparticles were meticulously characterized using various techniques, including optical analysis, structural analysis, transmission electron microscopy (TEM), and field-emission scanning electron microscope (FESEM). This thorough process instills confidence in the accuracy of our findings. The results unveiled that the silver nanoparticles had a diameter of less than 20 nm, a finding of great importance. The absorption spectrum decreased in the peak wavelength range (405 - 394 mm) with increasing concentrations of Ag nanoparticles in the range (1 - 5%). The XRD results indicated a cubic crystal structure for silver nanoparticles with the lattice constant (a = 4.0855 Å), and Miller indices were (111), (002), (002), and (113). The simulation on the XRD pattern showed a face center cubic phase with space group Fm-3m, providing valuable insights into the structure of the nanoparticles.

上海市PM_(2.5)的物理化学特征及其生物活性研究

采集了上海市区和郊区春季和夏季的大气PM2.5样品,分析了市区和郊区春夏2季PM2.5质量浓度变化的规律,使用PIXE(Proton Induced X-ray Emission)分析技术获得S、K、Ca、Ti、Cr、Mn、Fe、Ni、Cu、Zn、As、Se、Br、Sr、Pb等15种元素的质量浓度.结果表明,上海PM2.5中化学元素的质量浓度在春季(5038.6ng.m-3)比在夏季(3810.6ng.m-3)高,春季郊区(2528.9ng.m-3)和市区(2509.7ng.m-3)PM2.5中化学元素的质量浓度相当,夏季市区样品(1674.2ng.m-3)中化学元素质量浓度的总量比郊区(2136.3ng.m-3)的低,但来自人为污染的化学元素(Cr、Mn、Ti、Ni、Cu、Zn、As、Br、Sr、Pb)在市区PM2.5中的含量较高;场发射扫描电镜(FESEM)分析显示,上海PM2.5主要由烟尘集合体、燃煤飞灰、矿物颗粒、生物质颗粒和不明物质组成,质粒DNA评价揭示上海市区PM2.5比郊区的具有更强的生物活性,主要原因可能在于市区样品中含有较高的重金属元素和较多的烟尘集合体.

鄂尔多斯盆地中生界及上古生界页岩孔隙类型及特征研究

利用场发射扫描电镜对鄂尔多斯盆地中生界和上古生界的泥页岩孔隙特征进行观察,发现3种孔隙类型:①粒间孔,以黏土矿物间孔隙为主;②粒内孔,包括黏土矿物间孔隙、黄铁矿晶间孔和溶蚀孔;③裂缝,包括微裂缝和宏观裂缝。粒间孔和粒内孔是有效的页岩气储集空间,大量的微米—纳米级微裂缝是页岩气渗流的主要通道。由于热演化程度和干酪根类型的影响,有机质孔发育较少。

基于氮气吸附-核磁共振-氩离子抛光场发射扫描电镜研究川西须五段泥质岩储层孔隙结构

微观孔隙作为泥质岩的有效储集空间,其孔隙结构参数是作为气藏评价及资源量估算的重要依据。本文应用氮气吸附法(NAM)、核磁共振法(NMR)、氩离子抛光及场发射扫描电镜(AIP-FESEM)研究川西须五段泥质岩微观孔隙特征,结果表明:1氩离子抛光及场发射扫描电镜在表征微观孔隙形态与类别时有一定优势,但定量表征孔隙参数时,受图像二值化阈值的影响,表征结果偏差较大,可结合氮气吸附法来定量表征其孔径大小;2核磁共振受岩石骨架影响小,能够更精细反映岩石的物性条件,可定量计算孔隙度与可动流体饱和度,但对样品的孔隙形态反映较差;3综合上述三种方法,在须五段泥质岩中可识别出一定量的纳米级中、大孔,孔径大多介于几十纳米到几百纳米之间,孔隙连通性差,孔隙度主要介于2.3%~7.4%之间,孔隙类型以粒间孔、晶间孔最发育,有机孔隙、微裂缝次之,粒内孔隙最不发育。总体而言,融合了三种技术方法能更精确、更全面地反映泥质岩孔隙结构特征,能得到更完善的储层孔隙结构参数,在定量表征泥质岩孔隙结构中具有广泛的应用前景。

场发射扫描电镜荷电现象的研究及参数优化

扫描电子显微镜主要用于样品显微结构的表征分析,在科研和实际工作中应用广泛。荷电现象是最常见的严重影响到SEM图像质量的现象之一,它会造成图像的反差异常、形变等,在导电性不好或很差的样品形貌表征中极为常见。文中以几种导电性较差样品,如陶瓷、倍他环糊精、Si O2、细菌等为对象,通过实验比对后发现,通过加速电压、探头选择、信号选择、图像采集方式等参数的调节能够有效减轻SEM图像的荷电现象,从而提高了图像质量,获得了更为真实的显微结构信息。