An atlas of normal developmental roentgen anatomy
Author(s)
Bibliographic Information
An atlas of normal developmental roentgen anatomy
Year Book Medical Publishers, 1988
2nd ed
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Includes bibliographies and index
Description and Table of Contents
Description
Ultrasound in Liquid and Solid Metals focuses on the effect of intensive ultrasound on metals, including the analysis of the development of cavitation and acoustic flows in melts, mechanism of metals' spraying and crystallization, the formation of dislocation structure in crystals, diffusion, phase transformation, and plastic deformation. Physical fundamentals of intensive ultrasound effects are covered, and detailed discussions are presented on the engineering principles of equipment and material design for the practical use of ultrasound in the refining of melts, crystallization of ingots and molds, pulverization, plating, pressure working of metals, surface strengthening, and other processes.
Table of Contents
Preface. Introduction. The Fundamentals of the Science and Technology of Ultrasonics: Vibratory and Wave Motion. Ultrasonic Technology. The Physical Principles of Ultrasonic Treatment of Liquid Metals: Ultrasonic Cavitation. Acoustic Streaming, Radiation Pressure and Sonocapillary Effect. Ultrasonic Atomization and Degassing of Liquids. Solidification of Metals in an Ultrasonic Field. The Physical Principles of Ultrasonic Treatment of Solid Metals: The Attenuation of Ultrasonic Vibrations in Solids. Structure Changes in Metals on Ultrasonic Stressing. Mechanical Properties of Ultrasonically Irradiated Metals. Diffusion in an Ultrasonic Field. Phase Transformations in Ultrasonically Irradiated Metals. Ultrasound Interaction with the Solid-Solid Contact Surface. High-Intensity Ultrasound in Liquid Metal Technologies: Ultrasonic Degassing of the Melt. Solidification of Metals in an Ultrasonic Field. Ultrasonically Assisted Crystal Growth. Ultrasound in Plating Processes. Ultrasonic Melt Atomization in Powder Metallurgy. The Use of Ultrasound for Preparing In Situ Composites. High-Intensity Ultrasound in Solid Metal Technologies: Ultrasound in Metalworking Processes. Ultrasound in Heat Treatment and Chemical Heat Treatment. Ultrasonic Machining. Ultrasonic Surface Hardening.
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