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This book presents select proceedings of the International Conference on Future Learning Aspects of Mechanical Engineering (FLAME 2018). The book discusses interdisciplinary areas such as automobile engineering, mechatronics, applied and structural mechanics, bio-mechanics, biomedical instrumentation, ergonomics, biodynamic modeling, nuclear engineering, agriculture engineering, and farm machineries. The contents of the book will benefit both researchers and professionals. .
Mechanical engineering. --- Biomedical engineering. --- Mechanical Engineering. --- Mechatronics. --- Biomedical Engineering and Bioengineering. --- Nuclear Energy. --- Clinical engineering --- Medical engineering --- Bioengineering --- Biophysics --- Engineering --- Medicine --- Engineering, Mechanical --- Machinery --- Steam engineering --- Nuclear energy. --- Atomic energy --- Atomic power --- Energy, Atomic --- Energy, Nuclear --- Nuclear power --- Power, Atomic --- Power, Nuclear --- Force and energy --- Nuclear physics --- Power resources --- Nuclear engineering --- Nuclear facilities --- Nuclear power plants --- Mechanical engineering --- Microelectronics --- Microelectromechanical systems --- Nuclear engineering. --- Atomic power engineering --- Nuclear energy
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"This book examines alternative perspectives on often flawed and misleading college metrics to help students make important education decisions"--
PERSONAL STUDY FINANCE -- 371.53 --- Universities and colleges --- College costs --- Student loans --- College graduates --- College majors --- Educational indicators --- Evaluation. --- Ratings and rankings --- Admission. --- Finance, Personal.
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Electron backscatter diffraction (EBSD), when employed as an additional characterization technique to a scanning electron microscope (SEM), enables individual grain orientations, local texture, point-to-point orientation correlations, and phase identification and distributions to be determined routinely on the surfaces of bulk polycrystalline materials. The application has experienced rapid acceptance in metallurgical, materials, and geophysical laboratories within the past decade due to the wide availability of SEMs, the ease of sample preparation from the bulk, the high speed of data acquisition, and the access to complimentary information about the microstructure on a submicron scale. This entirely new second edition describes the complete EBSD technique, from the experimental set-up, representations of textures, and dynamical simulation, to energy-filtered, spherical, and 3-D EBSD, to phase identification, in situ experiments, strain mapping, and grain boundary networks, to the design and modeling of materials microstructures. Numerous application examples including the analysis of deformation microstructure, dynamic deformation and damage, and EBSD studies in the earth sciences provide details of this powerful materials characterization technique.
Crystallography. --- Materials -- Microscopy. --- Scanning electron microscopy. --- Materials --- Scanning electron microscopy --- Crystallography --- Chemical & Materials Engineering --- Engineering & Applied Sciences --- Materials Science --- Microscopy --- Microscopy. --- Leptology --- Materials science. --- Geophysics. --- Condensed matter. --- Materials Science. --- Characterization and Evaluation of Materials. --- Materials Science, general. --- Condensed Matter Physics. --- Geophysics/Geodesy. --- Electron microscopy --- Physical sciences --- Mineralogy --- Surfaces (Physics). --- Materials. --- Physical geography. --- Geography --- Engineering --- Engineering materials --- Industrial materials --- Engineering design --- Manufacturing processes --- Physics --- Surface chemistry --- Surfaces (Technology) --- Geological physics --- Terrestrial physics --- Earth sciences --- Condensed materials --- Condensed media --- Condensed phase --- Materials, Condensed --- Media, Condensed --- Phase, Condensed --- Liquids --- Matter --- Solids --- Material science
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Electron backscatter diffraction (EBSD), when employed as an additional characterization technique to a scanning electron microscope (SEM), enables individual grain orientations, local texture, point-to-point orientation correlations, and phase identification and distributions to be determined routinely on the surfaces of bulk polycrystalline materials. The application has experienced rapid acceptance in metallurgical, materials, and geophysical laboratories within the past decade due to the wide availability of SEMs, the ease of sample preparation from the bulk, the high speed of data acquisition, and the access to complimentary information about the microstructure on a submicron scale. This entirely new second edition describes the complete EBSD technique, from the experimental set-up, representations of textures, and dynamical simulation, to energy-filtered, spherical, and 3-D EBSD, to phase identification, in situ experiments, strain mapping, and grain boundary networks, to the design and modeling of materials microstructures. Numerous application examples including the analysis of deformation microstructure, dynamic deformation and damage, and EBSD studies in the earth sciences provide details of this powerful materials characterization technique.
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