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Moessbauer Spectroscopy in Materials Science : Nato Science Partnership Subseries: 3 - Marcel Miglierini

Moessbauer Spectroscopy in Materials Science

Nato Science Partnership Subseries: 3

By: Marcel Miglierini (Editor), Dimitris Petridis (Editor)

Hardcover

Published: 28th February 1999
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Material science is one of the most evolving fields of human activities. Invention and consequent introduction of new materials for practical and/or technological purposes requires as complete knowledge of the physical, chemical, and structural properties as possible to ensure proper and optimal usage of their new features. In order to understand the macroscopic behaviour, one has to search for their origin on a microscopic level. A good deal of microscopic information can be obtained through hyperfine interactions. Mossbauer spectroscopy offers a unique possibility for hyperfine interaction studies via probing the nearest order of resonant atoms. Materials which contain the respective isotope as one of the constituent elements (e.g., iron, tin, ... ) but also those which even do not contain them can be investigated. In the latter case, the probe atoms are incorporated into the material of interest in minor quantities (ca. 0.1 at. %) to act as probes on a nuclear level. This Workshop has covered the most evolving topics in the field of Mossbauer spectroscopy applied to materials science. During four working days, SO participants from 19 countries discussed the following areas: Chemisliy, Mineralogy and Metallurgy, Artificia/~y Structured Materials, Nanosized Materials and Quasicrvstals. and Experimental Techniques and Data Processing. A total of 42 contributions (30 keynote talks) reviewed the current state of art of the method, its applications for technical purposes, as well as trends and perspectives. A total of 39 papers are included in the present volume. Applications in Chemisfr'.

Preface
Structure and Properties of Tin-Doped Metal Oxidesp. 1
The Kinetics of the Phase Transition in Ferrosilicon Systemp. 13
Fluoride-Ion Conductors Derived from the Fluorite Typep. 25
The Ba[subscript 1-x]Sn[subscript x]Cl[subscript 1+y]F[subscript 1-y] Solid Solutionp. 39
The Mechanism of [beta]-Fe[subscript 2]O[subscript 3] Formation by Solid-State Reaction between NaCl and Fe[subscript 2](SO[subscript 4])[subscript 3]p. 49
Mossbauer Measurements of Solid Solutions (Fe[subscript x]Cr[subscript 1-x])[subscript 2]O[subscript 3], 0[x[1p. 57
Conversion Electron Mossbauer Spectroscopyp. 63
[superscript 57]Fe Implanted in Diamondp. 79
Iron States Following Cobalt Decay in Rutile Single Crystalp. 87
Mossbauer Spectroscopy in Mineralogy and Geologyp. 97
High-Chromium Ferritic Steelsp. 107
Microstructural Analysis of Nuclear Reactor Pressure Vessel Steelsp. 119
Mechanomixing in Various Iron-Containing Binary Alloysp. 131
Mossbauer Studies of Ball Milled Fe[subscript 1-x]S[subscript 1+x]p. 143
Structural Evolution in Mechanically Alloyed Fe-Snp. 151
Mossbauer Investigation of Nitriding Processesp. 161
Phase Composition of Steel Surfaces after Plasma Immersion Ion Implantationp. 173
Spark Eroded Fe-N Powdersp. 183
Ion-Beam Irradiated Metallic Systemsp. 189
Electrodeposited, Ion Beam Mixed and Ball Milled FeCrNi Alloysp. 203
Application of the Mossbauer Effect in Some Tribological Problemsp. 215
Mossbauer Studies in Magnetic Multilayersp. 227
Mossbauer Spectrometry Applied to Iron-Based Nanocrystalline Alloys Ip. 243
Mossbauer Spectrometry Applied to Iron-Based Nanocrystalline Alloys IIp. 257
Radiation Damage of Nanocrystalline Materialsp. 273
Disordered Nanocrystalline Fe-Sn Alloysp. 283
Iron Nanoparticles in X and Y Zeolites Prepared by Reduction with NaN[subscript 3]p. 291
Quasielastic Mossbauer Scattering in Stable Icosahedral Al-Cu-Fe Quasicrystalsp. 299
Quasi-Elastic Processes Studied by Methods Sensitive to the Momentum and Energy Transferp. 307
Synchrotron Mossbauer Reflectometry in Materials Sciencep. 323
Site Preference of [superscript 57]Co in Fe-Si Alloys after Grain Boundary Diffusionp. 337
High Pressure Mossbauer Spectroscopyp. 349
The Challenge of an Automatic Mossbauer Analysisp. 359
Evaluation of Experimental Data: Lineshape and Goodness of Fitp. 373
Confit for Windows 95p. 385
YAP-Ce Scintillation Detector for Transmission Mossbauer Spectroscopyp. 391
The Mossbauer Spectrometer as a Virtual Instrumentp. 399
Calibration of the Mossbauer Spectrometer Velocity by Optical Methodsp. 407
The Miniaturized Spectrometer MIMOS IIp. 413
Author Indexp. 427
Subject Indexp. 429
Table of Contents provided by Blackwell. All Rights Reserved.

ISBN: 9780792356400
ISBN-10: 0792356403
Series: Nato Science Partnership Subseries: 3
Audience: Professional
Format: Hardcover
Language: English
Number Of Pages: 432
Published: 28th February 1999
Publisher: Springer
Country of Publication: NL
Dimensions (cm): 24.4 x 17.0  x 3.18
Weight (kg): 1.77