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Dieses Buch erleichtert den Studenten an Universitäten und Fachhochschulen den Einstieg in die Werkstoffkunde und -wissenschaft. Dieses Gebiet enthält eine relativ große Zahl von Spezialbegriffen und -problemen, die beim üblichen Verfolgen und Nacharbeiten einer Vorlesung erfahrungsgemäß meist Schwierigkeiten bereiten. In Form von Fragen und Antworten kann der Benutzer nicht nur relativ leicht prüfen, ob er den Vorlesungsstoff verstanden hat, sondern auch älteres Fachwissen auffrischen. Aufbau, Inhalt und Darstellung sind auf das vielfach bewährte Lehrbuch "Werkstoffe" von E. Hornbogen abgestimmt. In der fünften Auflage wurden einige Aktualisierungen eingearbeitet und eine intensive Durchsicht vorgenommen. Insbesondere wurden alle verwendeten Werkstoffbezeichnungen nunmehr an die neuen internationalen Normen angepasst. Nicht zuletzt wurde die Kompatibilität zur 6. und 7. Auflage des Stammwerkes "Werkstoffe" weiter optimiert. .

Materials science. --- Characterization and Evaluation of Materials.

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Werkstoffkunde ist das Nachfolgewerk der in fünfzehn Auflagen erschienenen "Werkstoffkunde und Werkstoffprüfung" desselben Autors. Dieses Lehrbuch ist mittlerweile ein Standardwerk und somit ein zuverlässiger Ratgeber in Fragen zur Werkstoffkunde. Auf Grund seines verständlich geschriebenen Textes ist es für den Einsatz an Fachschulen und Fachhochschulen gleichermaßen gut geeignet. Neu ist in dieser Auflage ein Kapitel zu nanostrukturierten Werkstoffen, die thermomechanischen Verfahren wurden stark erweitert und sämtliche Normen aktualisiert.

Materials science. --- Characterization and Evaluation of Materials. --- Materials Science, general.

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In the fall of 1998, Prof. Sergey Firstov invited me to the Frantcevych Institute for Problems of Materials Science (IPMS) in Kyiv, Ukraine to discuss possible collaborations in the area of advanced metals research. During this visit, a strong mutual interest was evident in a broad range of structural metals technologies, and a quick friendship was established. Countless subsequent emails and a reciprocal visit to the U. S Air Force Research Laboratory by Prof. Firstov and a team of scientists from IPMS ensued to discuss and detail a broad collaboration in the area of structural metals. Two years after the initial visit, a major investment by the U. S. Air Force Office of Scientific Research (AFOSR) was established to pursue the technologies defined by these interactions. The annual reviews of the AFOSR Ukrainian Metals Initiative were held in late May, a most beautiful time in Kyiv when the lilacs are in bright display and the air is scented with the smell of falling blossoms from the chestnut trees that line the major streets and many parks. The sunny days and mild evenings provide a welcome break from winter, and on weekend evenings festive crowds spill onto the Khreshchatyk, Kyiv’s downtown boulevard, to listen to street musicians, watch jugglers and comedians, or simply to celebrate with friends. The annual reviews featured long days of intensive discussion of technical progress, followed in the evenings by the warm hospitality of the Ukrainian hosts.

Materials science. --- Materials Science. --- Characterization and Evaluation of Materials. --- Material science --- Physical sciences

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This collection covers a variety of materials science topics and has contributions from leading scientists and engineers representing 8 countries and 9 international materials, metals, and minerals societies. Papers are organized into the following sections: Advanced Biomaterials Advanced Manufacturing Materials for Green Energy Materials for Infrastructure Materials for the Oil and Gas Industry Materials for Transportation and Lightweighting Minerals Extraction and Processing Nanocrystalline and Ultra-fine Grain Materials and Bulk Metallic Glasses Steels.

Metals. --- Materials science. --- Engineering—Materials. --- Metallic Materials. --- Characterization and Evaluation of Materials. --- Materials Engineering.

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This book covers various aspects of characterization of materials in the areas of metals, alloys, steels, welding, nanomaterials, intermetallic, and surface coatings. These materials are obtained by different methods and techniques like spray, mechanical milling, sol-gel, casting, biosynthesis, and chemical reduction among others. Some of these materials are classified according to application such as materials for medical application, materials for industrial applications, materials used in the oil industry and materials used like coatings. The authors provide a comprehensive overview of structural characterization techniques including scanning electron microscopy (SEM), X-ray diffraction (XRD), transmission electron microscopy (TEM), Raman spectroscopy, image analysis, finite element method (FEM), optical microscopy (OM), energy dispersive spectroscopy (EDS), Fourier transform infrared spectroscopy (FTIR), differential thermal analysis (DTA), differential scanning calorimetry (DSC), ultraviolet–visible spectroscopy (UV-Vis), infrared photo-thermal radiometry (IPTR), electrochemical impedance spectroscopy (EIS), thermogravimetry analysis (TGA), thermo luminescence (TL), photoluminescence (PL), high resolution transmission electron microscopy (HRTEM), and radio frequency (RF). The book includes theoretical models and illustrations of characterization properties—both structural and chemical.

Materials science. --- Spectroscopy. --- Microscopy. --- Metals. --- Characterization and Evaluation of Materials. --- Spectroscopy and Microscopy. --- Metallic Materials.