Sintering Applications
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Sintering Applications
Sintering is one of the final stages of ceramics fabrication and is used to increase the strength of the compacted material. In the Sintering of Ceramics section, the fabrication of electronic ceramics and glass-ceramics were presented. Especially dielectric properties were focused on. In other chapters, sintering behaviour of ceramic tiles and nano-alumina were investigated. Apart from oxides, the sintering of non-oxide ceramics was examined. Sintering the metals in a controlled atmosphere furnace aims to bond the particles together metallurgically. In the Sintering of Metals section, two sections dealt with copper containing structures. The sintering of titanium alloys is another topic focused in this section. The chapter on lead and zinc covers the sintering in the field of extractive metallurgy. Finally two more chapter focus on the basics of sintering,i.e viscous flow and spark plasma sintering.
Advancements in Powder Metallurgy: Processing, Applications, and Properties
Author: Rajendrachari, Shashanka
language: en
Publisher: IGI Global
Release Date: 2024-02-27
Advancements in Powder Metallurgy: Processing, Applications, and Properties addresses a critical issue in academic scholarship by providing a comprehensive resource that has been lacking in the field. Existing books often fall short by merely covering the basics of powder preparation, sintering methods, and general applications, leaving scholars with a limited understanding of the subject. This knowledge gap has hindered innovative research and slowed the progress of metallurgy and mechanical engineering. However, with this groundbreaking book, the tide is turning. The book brings together twenty-one chapters authored by renowned pioneers in the field, delving deep into the realm of mechanical alloying. It covers the evolution of this technique, various alloy preparation methods, their advantages and limitations, and the synthesis of nanostructured materials. Unlike other resources, this volume goes beyond the basics and comprehensively covers the fabrication of a wide range of alloys, including biomaterials, hybrid nanomaterials, smart materials, super alloys, and ceramic materials, all achieved through the transformative process of mechanical alloying. By consolidating essential information in one resource, Advancements in Powder Metallurgy: Processing, Applications, and Properties fills a significant gap in the existing literature. It equips academic scholars and engineering students with the necessary knowledge to unlock the full potential of mechanical alloying and make meaningful contributions to the field. With its emphasis on simplicity and accessibility, this book promises to inspire a new wave of research, reignite interest in metallurgy and mechanical engineering, and empower scholars to explore novel applications and contribute to the advancements in this field.
Industrial Chemistry of Oxides for Emerging Applications
Valuable insights into the extraction, production, and properties of a large number of natural and synthetic oxides utilized in applications worldwide from ceramics, electronic components, and coatings This handbook describes each of the major oxides chronologically—starting from the processes of extraction of ores containing oxides, their purification and transformations into pure alloyed powders, and their appropriate characterization up to the processes of formation of 2D films by such methods as PVD, CVD, and coatings by thermal spraying or complicated 3D objects by sintering and rapid prototyping. The selection of oxides has been guided by the current context of industrial applications. An important point that is considered in the book concerns the strategic aspects of oxides. Some oxides (e.g. rare earth ones) become more expensive due to the growing demand for them, others, because of the strategic importance of countries producing raw materials and the countries that are using them. Industrial Chemistry of Oxides for Emerging Applications provides readers with everything they need to know in 7 chapters that cover: technical and economical importance of oxides in present and future; fundamentals of oxides manufacturing; extraction, properties, and applications of Al2O3; extraction, properties, and applications of ZrO2; synthesis, properties, and applications of YBaCu2O7x; extraction, properties, and applications of TiO2; and synthesis, properties, and application of hydroxyapatite. Presents the extraction, production, and properties of a large fraction of oxides applications worldwide, both natural as well as synthetic multi‐oxides Covers a very important segment of many industrial processes, such as refractories and piezoelectric oxides—both applications constituting very large market segments Developed from a lecture course given by the authors for over a decade Industrial Chemistry of Oxides for Emerging Applications is an excellent text for university professors and teachers, and graduate and postgraduate students with a solid background in physics and chemistry.