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| fe-ge phase diagram: IRON—Binary Phase Diagrams O. Kubaschewski, 2013-03-14 At the official dinner of a· meeting in May 1939, I was seated next to Max Hansen. When I congratulated him on the well deserved success of his Aufbau der Zweistoff-Legierungen, he smiled: yes, it was a struggle with the hydra, and so it has taken me seven years, meaning that whenever he had thought to have finished the phase diagram of a particular system, new evidence would turn up like the new heads of the Greek monster. There is no need to point out the importance of assessed phase diagrams to metallurgists or even anyone concerned with the technology and applica tion of metals and alloys. The information contained therein is fundamental to considerations concerning the chemical, physical and mechanical properties of alloys. Hansen's German monograph was followed by a revised English edition in 1958 with K. Anderko and the supplements by R.P. Elliott (1965) and F.A. Shunk (1969). All those who have made use of these volumes will admit that much diligent labour has gone into this work, necessary to cope with the ever increasing number of publications and the consequent improvements. |
| fe-ge phase diagram: Phase Diagrams of Binary Beryllium Alloys Hiroaki Okamoto, Lee E. Tanner, 1987 Evaluations of pure beryllium, plus 72 binary beryllium alloys. Bibliography through 1986. Required reference sources for engineers and scientists alike, each volume in the Phase Diagram Monograph Series presents the most complete, authoritative, and reliable phase equilibria information ever published on the alloys. Each volume comprises critical evaluations of individual alloy systems performed by experts under the ASM/NIST Data Program for Alloy Phase Diagrams. Evaluation involves searching the literature for all existing thermodynamic and related information on the system, assessing value and distilling the best data into a comprehensive report. Phase diagrams are plotted in atomic percent, but include a secondary weight percent scale. Important points are labeled with composition and temperature. Supplementary graphs provide enlargements of complex areas, solubilities and transformations on the phase diagrams, as well as ancillary drawings that show lattice parameters and thermodynamic data. The text includes discussion of stable and metastable phases, order-disorder and magnetic transitions, thermodynamic calculations and modeling, discrepancies in data values and controversial areas and uncertainties in the diagram. In addition, tables list invariant reactions, crystal structures, lattice parameters, experimental values and thermodynamic parameters. |
| fe-ge phase diagram: Phase Diagrams of Binary Iron Alloys ASM International, 1993 |
| fe-ge phase diagram: Phase Diagrams of Ternary Iron Alloys V. Raghavan, 1988 |
| fe-ge phase diagram: Phase Diagrams of Quaternary Iron Alloys V. Raghavan, 1992 |
| fe-ge phase diagram: Materials Engineering Susan Trolier-McKinstry, Robert E. Newnham, 2018 An easy-to-read textbook linking together bond strength and the arrangement of atoms in space with the properties that they control. |
| fe-ge phase diagram: Structure Induced Anelasticity in Iron Intermetallic Compounds and Alloys Igor S. Golovin, Anatoly M. Balagurov, 2018-04-01 Different anelastic phenomena are discussed in this book with respect to iron-based binary and ternary alloys and intermetallic compounds of Fe3Me type, where Me are α-stabilizing elements Al, Ga, or Ge. An introduction into anelastic behavior of metallic materials is given, and methods of mechanical spectroscopy and neutron diffraction are introduced for the better understanding of structure-related relaxation and hysteretic phenomena. To characterize structure and phase transitions - both first and second order - in the studied alloys XRD, TEM, SEM, MFM, VSM, PAS, DSC techniques were used. Considerable emphasis is placed on in situ neutron diffraction tests that were performed with the same heating and cooling rates as the internal friction measurements. Different types of mechanical spectroscopy techniques were used to study mainly, but not exclusively, Fe-Al, Fe-Ga and Fe-Ge based alloys: from subresonance “low” frequency forced bending and torsion vibrations (0.00001 to 200 Hz) to “high” frequency resonance (above ~200 Hz) free decay bending vibrations. We discuss (1) thermally activated effects like Snoek-type relaxation, caused by interstitial atom jumps in alloyed ferrite, (2) Zener relaxation, caused by reorientation of pairs of substitute atoms in iron, (3) different transient effects due to phase transitions of the first and second order, and (4) amplitude dependent magneto-mechanical damping; especially with respect to structure, ordering of substitutional solid solution and phase transitions. Special attention is paid to magnetostriction of the alloys - the result of magneto-mechanical elastic coupling. |
| fe-ge phase diagram: Handbook of Magnetic Materials Ekkes H. Brück, 2019-11-20 Handbook of Magnetic Materials, Volume 28, covers the expansion of magnetism over the past few decades and its applications in research, notably the magnetism of several classes of novel materials that share the presence of magnetic moments with truly ferromagnetic materials. The book is an ideal reference for scientists active in magnetism research, providing readers with novel trends and achievements in magnetism. Each article contains an extensive description given in graphical, as well as tabular form, with much emphasis placed on the discussion of the experimental material within the framework of physics, chemistry and materials science. - Comprises topical review articles written by leading authorities - Includes a variety of self-contained introductions to a given area in the field of magnetism without requiring recourse to the published literature - Introduces given topics in the field of magnetism - Describes novel trends and achievements in magnetism |
| fe-ge phase diagram: Intermetallics Research Progress Yakov N. Berdovsky, 2008 Intermetallics is concerned with all aspects of ordered chemical compounds between two or more metals and notably with their applications. This book covers new and important research on the crystal chemistry and bonding theory of intermetallics; determination and analysis of phase diagrams; the nature of superlattices, antiphase domains and order-disorder transitions; the geometry and dynamics of dislocations and related defects in intermetallics; theory and experiments relating to flow stress, work-hardening, fatigue and creep; response of deformed intermetallics to annealing; magnetic and electrical properties of intermetallics; structure and properties of grain and interphase boundaries; the effect of deviations from stoichiometry on physical and mechanical properties; crystallisation of intermetallics from the melt or amorphous precursors. |
| fe-ge phase diagram: Nuclear Science Abstracts , 1975 |
| fe-ge phase diagram: Shape Memory Alloys Vasiliy Buchelnikov, Vladimir Sokolovskiy, , Mikhail Zagrebin, Olga Miroshkina, 2018-12-05 The book presents selected, peer reviewed papers from the 3rd International Conference on “Shape Memory Alloys” (SMA 2018) Keywords: Shape Memory Alloys, Martensitic Transformations, Biocompatible Porous Materials, Ni-Mn Intermetallic Alloys, Superelastic Alloys, Ti-Ni Shape Memory Alloys, Novel Superelastic Ti-Zr-Based Alloys, Solid State Cooling, Pulsed Electron Beam Treatment, Surface Modification, Carbon Polytypes, Fluorographene, Diamond-Like Phase Transformations, Solid Oxide Fuel Cell, Multiferroics, Fe-Ga Phase Diagram, Fe-Ge Phase Diagram , Fe-Al Phase Diagram. |
| fe-ge phase diagram: Phase Diagrams of Ternary Iron Alloys: Ternary systems containing iron and oxygen V. Raghavan, 1987 |
| fe-ge phase diagram: Bibliography Pierre Villars, Karin Cenzual, Marinella Penzo, 2012-12-21 By browsing about 10 000 000 scientific articles of over 200 major journals mainly in a 'cover to cover approach' some 200 000 publications were selected. The extracted data is part of the following fundamental material research fields: crystal structures (S), phase diagrams (also called constitution) (C) and the comprehensive field of intrinsic physical properties (P). This work has been done systematically starting with the literature going back to 1900. The above mentioned research field codes (S, C, P) as well as the chemical systems investigated in each publication were included in the present work. The aim of the Inorganic Substances Bibliography is to provide researchers with a comprehensive compilation of all up to now published scientific publications on inorganic systems in only three handy volumes. |
| fe-ge phase diagram: Skyrmions J. Ping Liu, Zhidong Zhang, Guoping Zhao, 2016-12-08 The book reviews all the aspects of recent developments in research on skyrmions, from the presentation of the observation and characterization techniques to the description of physical properties and expected applications. It will be of great use for all scientists working in this field. – Albert Fert, 2007 Nobel Laureate in Physics (from the Foreword) A skyrmion is a tiny region of reversed magnetization – quasiparticles since they are not present except in a magnetic state, and also give rise to physics that cannot be described by Maxwell’s equations. These particles are fascinating subjects for theoretical and experimental studies. Moreover, as a new type of magnetic domain structure with special topological structures, skyrmions feature outstanding magnetic and transport properties and may well have applications in data storage and other advanced spintronic devices, as readers will see in this book. Chapters address the relationships between physical properties of condensed matter, such as the AB effect, Berry phase effect, quantum Hall effect, and topological insulators. Overall, it provides a timely introduction to the fundamental aspects and possible applications of magnetic skyrmions to an interdisciplinary audience from condensed matter physics, chemistry, and materials science. |
| fe-ge phase diagram: Nanowires Nicoleta Lupu, 2010-02-01 This book describes nanowires fabrication and their potential applications, both as standing alone or complementing carbon nanotubes and polymers. Understanding the design and working principles of nanowires described here, requires a multidisciplinary background of physics, chemistry, materials science, electrical and optoelectronics engineering, bioengineering, etc. This book is organized in eighteen chapters. In the first chapters, some considerations concerning the preparation of metallic and semiconductor nanowires are presented. Then, combinations of nanowires and carbon nanotubes are described and their properties connected with possible applications. After that, some polymer nanowires single or complementing metallic nanowires are reported. A new family of nanowires, the photoferroelectric ones, is presented in connection with their possible applications in non-volatile memory devices. Finally, some applications of nanowires in Magnetic Resonance Imaging, photoluminescence, light sensing and field-effect transistors are described. The book offers new insights, solutions and ideas for the design of efficient nanowires and applications. While not pretending to be comprehensive, its wide coverage might be appropriate not only for researchers but also for experienced technical professionals. |
| fe-ge phase diagram: Ternary Alloys Based on IV-VI and IV-VI2 Semiconductors Vasyl Tomashyk, 2022-06-19 IV-VI and IV-VI2 semiconductors are among the most interesting materials in semiconductor physics. The electrical properties of these semiconductors can also be tuned by adding impurity atoms. These semiconductors either have already found use or are promising materials for infrared sensors and sources, thermoelectric elements, solar cells, memory elements, etc. The basic characteristics of these compounds, namely, narrow bandgap, high permittivity, relatively high radiation resistance, high mobility of charge carriers, and high bond ionicity, are unique among semiconductor substances. Because of their wide application in various devices, the search for new semiconductor materials and the improvement of existing materials is an important field of study. Doping with impurities is a common method of modifying and diversifying the properties of physical and chemical semiconductors. This book covers all known information about phase relations in ternary systems based on IV-VI and IV-VI2 semiconductors, providing the first systematic account of phase equilibria in ternary systems and making research originally published in Russia accessible to the wider scientific community. This book will be of interest to undergraduate and graduate students studying materials science, solid state chemistry, and engineering. It will also be relevant for researchers at industrial and national laboratories, in addition to phase diagram researchers, inorganic chemists, and solid-state physicists. FEATURES Provides up-to-date experimental and theoretical information Allows readers to synthesize semiconducting materials with predetermined properties Delivers a critical evaluation of many industrially important systems presented in the form of two-dimensional sections for the condensed phases |
| fe-ge phase diagram: Solidification of Containerless Undercooled Melts Dieter M. Herlach, Douglas M. Matson, 2012-05-21 All metallic materials are prepared from the liquid state as their parent phase. Solidification is therefore one of the most important phase transformation in daily human life. Solidification is the transition from liquid to solid state of matter. The conditions under which material is transformed determines the physical and chemical properties of the as-solidified body. The processes involved, like nucleation and crystal growth, are governed by heat and mass transport. Convection and undercooling provide additional processing parameters to tune the solidification process and to control solid material performance from the very beginning of the production chain. To develop a predictive capability for efficient materials production the processes involved in solidification have to be understood in detail. This book provides a comprehensive overview of the solidification of metallic melts processed and undercooled in a containerless manner by drop tube, electromagnetic and electrostatic levitation, and experiments in reduced gravity. The experiments are accompanied by model calculations on the influence of thermodynamic and hydrodynamic conditions that control selection of nucleation mechanisms and modify crystal growth development throughout the solidification process. |
| fe-ge phase diagram: Solid - Solid Phase Transformations Masahiro Koiwa, Kazuhiro Ōtsuka, Tamotsu Miyazaki, 1999 |
| fe-ge phase diagram: Proceedings of the LACME '98 Sixth Latin American Conference on Applications of the Mössbauer Effect Jesus A. Tabares, Alberto Bohorquez G., Ligia E. Zamora, German A. Perez Alcazar, 2002-07-31 Cartagena of Indias, Columbia, September 13-19, 1998 |
| fe-ge phase diagram: Journal of Chemical Sciences , 2001 |
| fe-ge phase diagram: Synthesis and Properties of Mechanically Alloyed and Nanocrystalline Materials Dino Fiorani, Mauro Magini, 1996-10-31 ISMANAM96 Proceedings of the International Symposium on Metastable, Mechanically Alloyed and Nanocrystalline Materials (ISMANAM-96), Rome, Italy, May 1996 |
| fe-ge phase diagram: Inorganic Materials , 1993 |
| fe-ge phase diagram: Proceedings of International Symposium on Non-Equilibrium Solid Phases of Metals and Alloys (JIMIS-5), March 14-17, 1988, Kyoto, Japan , 1988 |
| fe-ge phase diagram: Frontiers in the Design of Materials Baldev Raj, 2007 Contributed articles presented at the Symposium organized by Indian Institute of Metals. |
| fe-ge phase diagram: Russian Metallurgy , 1995 |
| fe-ge phase diagram: Pearson's Handbook Pierre Villars, 1997 (2 Volume set). The valuable information in Pearson's Handbook is now more affordable in a handy desk reference. 27,686 entries of the highest quality crystal data, representing 27,686 different compounds. Structure type given for all entries. 54 per cent of entries include the coordinates of the atoms. 605 entries are 'filled-up' structure 1,730 structure types have been assigned by the editor 6,426 belong to berthollide compounds. Data included up to 1995 (6-year update to the Second Edition 12-year update to the First Edition). Full 167-page structure-type index (with all its representatives). Entries include full information, as in the Second Edition. Comprises all the international literature from 1913 to 1995. Includes detailed crystallographic data for unary, binary and ternary phases, excluding halides and ternary (or quaternary) oxides. Fully revised and updated. Covers more than 27,000 compounds, with all data critically evaluated. Includes the following improvements over the original Pearson's.Additional literature years between 1989 to 1995 have been covered completely and comprehensively, based on searches of more than 130 journals and more than 10,000 abstract pages per year. Entries contain additional information, such as calculated density, color, more detailed diffraction data, standard deviation of unit cell dimension(s), point-set symmetry, and full reference, including publication title. All entries and structure types have been computer checked for consistency and correctness. All crystallographic data are now given in the standard setting according to the International Tables for Crystallography. Include a Six-Year Update of the Data in The Second Edition. |
| fe-ge phase diagram: Encyclopedia of Chemical Processing Sunggyu Lee, 2006 Collecting information of vital interest to chemical, polymer, mechanical, electrical, and civil engineers, as well as chemists and chemical researchers, this Encyclopedia supplies nearly 350 articles on current design, engineering, science, and manufacturing practices-offering expertly written articles on technologies at the forefront of the field to maximize and enhance the research and production phases of current and emerging chemical manufacturing practices and techniques. |
| fe-ge phase diagram: Handbook of Magnetic Materials K.H.J. Buschow, 2012-01-25 Volume 20 of the Handbook of Magnetic Materials, as the preceding volumes, has a dual purpose. As a textbook it is intended to help those who wish to be introduced to a given topic in the field of magnetism without the need to read the vast amount of literature published. As a work of reference it is intended for scientists active in magnetism research. To this dual purpose, Volume 20 is composed of topical review articles written by leading authorities. In each of these articles an extensive description is given in graphical as well as in tabular form, much emphasis being placed on the discussion of the experimental material in the framework of physics, chemistry and material science. It provides readers with novel trends and achievements in magnetism. - Composed of topical review articles written by leading authorities - Intended to be of assistance to those who wish to be introduced to a given topic in the field of magnetism - As a work of reference it is intended for scientists active in magnetism research - Provide the readership with novel trends and achievements in magnetism |
| fe-ge phase diagram: Semiconductors, Dielectrics, and Metals for Nanoelectronics 12 S. Kar, M. Houssa, S. Van Elshocht, D. Misra, K. Kita, D. Landheer, S. Dayeh, H. Jagannathan, 2014 |
| fe-ge phase diagram: Metallurgical Abstracts Institute of Metals, 1967 |
| fe-ge phase diagram: Russian Journal of Physical Chemistry , 2003 |
| fe-ge phase diagram: HDBK ELECTRICAL RESISTIVITIES BINARY METALLIC ALLOYS Klaus Schröder, 1983-03 |
| fe-ge phase diagram: Recent Advances In Magnetism Of Transition Metal Compounds: Festschrift In Honour Of Professor K Motizuki Akio Kotani, Naoshi Suzuki, 1993-03-18 This book is a Festschrift in honour of Professor Kazuko Motizuki on the occasion of her retirement from Osaka University. She has been active in a variety of branches of solid state physics and, in particular, has made an important contribution to the theory of magnetism. The book reviews recent advances in magnetism of transition metal compounds, both for itinerant electron systems and localized spin systems. For the former systems, band calculational methods, correlation effects, and theoretical aspects of photoemission spectroscopy are reviewed generally, and then recent progress in the theoretical and experimental understanding of magnetic properties of various kinds of intermetallic compounds and intercalation compounds of transition-metal dichalcogenides are reviewed in detail. For the latter systems, attention is focused on quantum effects, frustration and competing interaction in low-dimensional systems. Main subjects treated in the book are Haldane gap-systems, singlet-ground-state systems, triangular spin systems, and quantum spin chains with competing interactions. |
| fe-ge phase diagram: Current Review of the Soviet Technical Press , 1963 |
| fe-ge phase diagram: Semiconductor Nanowires Jie Xiang, 2015 A timely reference from leading experts on semiconductor nanowires and their applications. |
| fe-ge phase diagram: Physics Briefs , 1992 |
| fe-ge phase diagram: Geochemistry of Germanium Jon Noel Earl Weber, 1973 |
| fe-ge phase diagram: Synthesis and Properties of Mechanically Alloyed and Nanocrystalline Materials , 1997 |
| fe-ge phase diagram: INIS Atomindex , 1994 |
| fe-ge phase diagram: Topological Structures in Ferroic Materials Jan Seidel, 2016-02-12 This book provides a state-of-the art overview of a highly interesting emerging research field in solid state physics/nanomaterials science, topological structures in ferroic materials. Topological structures in ferroic materials have received strongly increasing attention in the last few years. Such structures include domain walls, skyrmions and vortices, which can form in ferroelectric, magnetic, ferroelastic or multiferroic materials. These topological structures can have completely different properties from the bulk material they form in. They also can be controlled by external fields (electrical, magnetic, strain) or currents, which makes them interesting from a fundamental research point of view as well as for potential novel nanomaterials applications. To provide a comprehensive overview, international leading researches in these fields contributed review-like chapters about their own work and the work of other researchers to provide a current view of this highly interesting topic. |
MBTI里的fe和fi具体有什么不同? - 知乎
f轴的本质就是一种主观价值判断,fe fi区别在于,fi是更关注自己的价值观,用自己的价值观衡量外部世界。而fe是更关注外部世界的价值观,希望遵守这个价值观,因此他们的价值观也更容易 …
微单镜头入门推荐 ·索尼E卡口篇 | 2024版 - 知乎
Feb 27, 2024 · 一、E卡口镜头群简述 索尼自2010年开始专注微单赛道,十余年来,已将自家α微单建设成为了 世界上镜头选择最丰富的微单系统。 据DPReview的统计数据,截至2024年 …
索尼的E卡口与FE卡口有什么区别? - 知乎
卡口的尺寸是一样的 索尼现在市场上可见的a6000系列,a7系列,a9系列,以及一些摄影机,都采用了这种统一的卡口 E卡口的镜头,同样可以装在FE卡口上,反之亦然 但是,能装不一定就 …
以ftp开头的网址怎么打开? - 知乎
FTP开头的网址可以通过浏览器、FTP客户端或命令行工具打开。
双向固定效应模型怎么理解? - 知乎
面板数据所有都用 虚拟变量 理解就方便了,当然并不是说就用虚拟变量法 (LDSV)来估计,但是你就把它当成有多少个类别就加入n-1个虚拟变量就行了。虚拟变量加法引入改变截距,所以, …
低阶、中阶、高阶的intp分别是怎么样的? - 知乎
8、整体来说,积累人脉、社会资源的意识淡泊,和人交往也没有什么目的性,类似于,“将来我用得着你,所以我和你交往;或者我觉得你对我有价值,你会帮我达成我的某个目的”,几乎没 …
请问用ansys里的mesh划分网格报错是为什么? - 知乎
May 9, 2022 · 1.复杂的模型先用DM砍成规整的,方方正正的那种 2.先粗划分,再插入——方法——细化 3.砍成好几块后,分开分步进行多区域网格划分,看报错报的是哪一块,再对其砍成 …
完全弄懂X射线光电子能谱(XPS)
Jun 11, 2025 · X射线光电子能谱(XPS)是一种用于分析材料表面化学成分和电子状态的先进技术。
4070,4070ti,4070tis4070s怎么选?
2K/4K游戏帧数表现如下 DLSS2/3:OFF、光追:OFF 4070、4070s、4070Ti 这三张卡都是192bit位宽 12G显存,他们的性能差距就在上面,你们可以自己看下,从性价比的角度来 …
急求!Stata中xtreg、areg、reghdfe三种回归的区别? - 知乎
Apr 11, 2019 · xtreg,fe 是固定效应模型的官方命令,使用这一命令估计出来的系数是最为纯正的固定效应估计量(组内估计量)。 xtreg 对数据格式有严格要求,要求必须是面板数据,在使 …
MBTI里的fe和fi具体有什么不同? - 知乎
f轴的本质就是一种主观价值判断,fe fi区别在于,fi是更关注自己的价值观,用自己的价值观衡量外部世界。而fe是更关注外部世界的价值观,希望遵守这个价值观,因此他们的价值观也更容易 …
微单镜头入门推荐 ·索尼E卡口篇 | 2024版 - 知乎
Feb 27, 2024 · 一、E卡口镜头群简述 索尼自2010年开始专注微单赛道,十余年来,已将自家α微单建设成为了 世界上镜头选择最丰富的微单系统。 据DPReview的统计数据,截至2024年 …
索尼的E卡口与FE卡口有什么区别? - 知乎
卡口的尺寸是一样的 索尼现在市场上可见的a6000系列,a7系列,a9系列,以及一些摄影机,都采用了这种统一的卡口 E卡口的镜头,同样可以装在FE卡口上,反之亦然 但是,能装不一定就 …
以ftp开头的网址怎么打开? - 知乎
FTP开头的网址可以通过浏览器、FTP客户端或命令行工具打开。
双向固定效应模型怎么理解? - 知乎
面板数据所有都用 虚拟变量 理解就方便了,当然并不是说就用虚拟变量法 (LDSV)来估计,但是你就把它当成有多少个类别就加入n-1个虚拟变量就行了。虚拟变量加法引入改变截距,所以,对 …
低阶、中阶、高阶的intp分别是怎么样的? - 知乎
8、整体来说,积累人脉、社会资源的意识淡泊,和人交往也没有什么目的性,类似于,“将来我用得着你,所以我和你交往;或者我觉得你对我有价值,你会帮我达成我的某个目的”,几乎没有 …
请问用ansys里的mesh划分网格报错是为什么? - 知乎
May 9, 2022 · 1.复杂的模型先用DM砍成规整的,方方正正的那种 2.先粗划分,再插入——方法——细化 3.砍成好几块后,分开分步进行多区域网格划分,看报错报的是哪一块,再对其砍成 …
完全弄懂X射线光电子能谱(XPS)
Jun 11, 2025 · X射线光电子能谱(XPS)是一种用于分析材料表面化学成分和电子状态的先进技术。
4070,4070ti,4070tis4070s怎么选?
2K/4K游戏帧数表现如下 DLSS2/3:OFF、光追:OFF 4070、4070s、4070Ti 这三张卡都是192bit位宽 12G显存,他们的性能差距就在上面,你们可以自己看下,从性价比的角度来 …
急求!Stata中xtreg、areg、reghdfe三种回归的区别? - 知乎
Apr 11, 2019 · xtreg,fe 是固定效应模型的官方命令,使用这一命令估计出来的系数是最为纯正的固定效应估计量(组内估计量)。 xtreg 对数据格式有严格要求,要求必须是面板数据,在使 …
