Fundamentals of Microstructural Characterization of Materials - Garmestani, Hamid; Esfahani, Navid Nasajpour
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Fundamentals of Microstructure Characterization of Materials covers a wide range of topics, methods, and fundamental information for the characterization of materials. Techniques discussed include spectroscopic ones such as electromagnetic radiation, X-ray photoelectron, atomic emission, and more. Scanning electron microscope techniques are outlined, as are sample preparation methods such as cutting, grinding and polishing, etching, and others. Microscopy fundamentals are discussed as well, with coverage of types of lenses, optical imaging formation principles, depth of field and depth of…mehr

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Produktbeschreibung
Fundamentals of Microstructure Characterization of Materials covers a wide range of topics, methods, and fundamental information for the characterization of materials. Techniques discussed include spectroscopic ones such as electromagnetic radiation, X-ray photoelectron, atomic emission, and more. Scanning electron microscope techniques are outlined, as are sample preparation methods such as cutting, grinding and polishing, etching, and others. Microscopy fundamentals are discussed as well, with coverage of types of lenses, optical imaging formation principles, depth of field and depth of focus included. A full chapter is dedicated to statistical analysis, covering concepts such as cumulative distribution function, probability density function, and Gaussian distribution. X-ray diffraction and its application in phase analysis of materials is discussed as well.
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Autorenporträt
Dr. Hamid Garmestani is a Professor in the School of Materials Science and Engineering at the Georgia Institute of Technology and a fellow of ASM International and American Society of Mechanical Engineering (ASME). His main research and teaching interests focus on the relationships between microstructure and properties in textured polycrystalline materials, composites, superplastic, magnetic, and thin film layered structures. He employs models based on phenomenological and statistical mechanics within a computational framework to study the evolution of microstructure and texture (micro-texture) during fabrication processes and to forecast their effective properties, including mechanical, transport, and magnetic characteristics. Presently he is focused on modeling of processing and manufacturing processes specifically 3D manufacturing.