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This collection honoring Professor Jiann-Yang Hwang focuses on
characterization and processing development in minerals, metals,
and materials. Topics include but are not limited to:*
Characterization methodology of minerals, metals, and materials *
Microwave-assisted material processes * Recycling and reuse of
metallurgical byproducts * Materials for hydrogen storage *
Wastewater treatment and environmental protection * Natural
materials for value-added applications * Principles and
interactions of material characterization and manufacturing
processing
This collection honoring Professor Jiann-Yang Hwang focuses on
characterization and processing development in minerals, metals,
and materials. Topics include but are not limited to:*
Characterization methodology of minerals, metals, and materials *
Microwave-assisted material processes * Recycling and reuse of
metallurgical byproducts * Materials for hydrogen storage *
Wastewater treatment and environmental protection * Natural
materials for value-added applications * Principles and
interactions of material characterization and manufacturing
processing
In recent years, global metallurgical industries have experienced
fast and prosperous growth. High-temperature metallurgical
technology is the backbone to support the technical, environmental,
and economical needs for the growth. This collection features
contributions covering the advancements and developments of new
high-temperature metallurgical technologies and their applications
to the areas of processing of minerals; extraction of metals;
preparation of metallic, refractory and ceramic materials;
treatment and recycling of slag and wastes; and saving of energy
and protection of environment.The volume will have a broad impact
on the academics and professionals serving the metallurgical
industries around the world.
This collection gives broad and up-to-date results in the research
and development of materials characterization and processing.
Coverage is well-rounded from minerals, metals, and materials
characterization and developments in extraction to the fabrication
and performance of materials. In addition, topics as varied as
structural steels to electronic materials to plant-based composites
are explored. The latest research presented in this wide area make
this book both timely and relevant to the materials science field
as a whole. The book explores scientific processes to characterize
materials using modern technologies, and focuses on the
interrelationships and interdependence among processing, structure,
properties, and performance of materials. Topics covered include
ferrous materials, non-ferrous materials, minerals, ceramics,
clays, soft materials, method development, processing, corrosion,
welding, solidification, composites, extraction, powders,
nanomaterials, advanced materials, and several others.
In recent years, global metallurgical industries have experienced
fast and prosperous growth. High-temperature metallurgical
technology is the backbone to support the technical, environmental,
and economical needs for the growth. This collection features
contributions covering the advancements and developments of new
high-temperature metallurgical technologies and their applications
to the areas of processing of minerals; extraction of metals;
preparation of metallic, refractory and ceramic materials;
treatment and recycling of slag and wastes; and saving of energy
and protection of environment.The volume will have a broad impact
on the academics and professionals serving the metallurgical
industries around the world.
Characterization is an important and fundamental step in material
research before and after processing. This bookfocuses on the
characterization of minerals, metals, and materials as well as the
application of characterization results on the processing of these
materials. It is a highly authoritative collection of articles
written by experts from around the world. The articles center on
materials characterization, extraction, processing, corrosion,
welding, solidification, and method development. In addition,
articles focus on clays, ceramics, composites, ferrous metals,
non-ferrous metals, minerals, electronic, magnetic, environmental,
advanced and soft materials. This book will serve the dual purpose
of furnishing a broad introduction of the field to novices while
simultaneously serving to keep subject matter experts up-to-date.
This collection gives broad and up-to-date results in the research
and development of materials characterization and processing.
Coverage is well-rounded from minerals, metals, and materials
characterization and developments in extraction to the fabrication
and performance of materials. In addition, topics as varied as
structural steels to electronic materials to plant-based composites
are explored. The latest research presented in this wide area make
this book both timely and relevant to the materials science field
as a whole. The book explores scientific processes to characterize
materials using modern technologies, and focuses on the
interrelationships and interdependence among processing, structure,
properties, and performance of materials. Topics covered include
ferrous materials, non-ferrous materials, minerals, ceramics,
clays, soft materials, method development, processing, corrosion,
welding, solidification, composites, extraction, powders,
nanomaterials, advanced materials, and several others.
This collection focuses on the characterization of minerals,
metals, and materials as well as the application of
characterization results on the processing of these materials.
Papers cover topics such as clays, ceramics, composites, ferrous
metals, non-ferrous metals, minerals, electronic materials,
magnetic materials, environmental materials, advanced materials,
and soft materials. In addition, papers covering materials
extraction, materials processing, corrosion, welding,
solidification, and method development are included. This book
provides a current snapshot of characterization in materials
science and its role in validating, informing, and driving current
theories in the field of materials science. This volume will serve
the dual purpose of furnishing a broad introduction of the field to
novices while simultaneously serving to keep subject matter experts
up-to-date.
This collection includes the analysis, development, and operation
of high-temperature processes that involve the extraction and
processing of material resources, production, and treatment of
metals, alloys, and ceramic materials. Contributions describe
innovative methods for achieving property enhancement, impurity
segregation and removal, byproduct recovery, waste minimization,
energy efficiency, and utilization of complex ores. Also included
are various technical, economic, and environmental issues
associated with commercial-scale high-temperature processing
methods.
In recent years, global metallurgical industries have experienced
fast and prosperous growth. High-temperature metallurgical
technology is the backbone to support the technical, environmental,
and economical needs for this growth. This collection features
contributions covering the advancements and developments of new
high-temperature metallurgical technologies and their applications
to the areas of processing of minerals; extraction of metals;
preparation of refractory and ceramic materials; sintering and
synthesis of fine particles; treatment and recycling of slag and
wastes; and saving of energy and protection of environment. The
volume will have a broad impact on the academics and professionals
serving the metallurgical industries around the world.
Understand the impact of fatigue on high strength steel joints with
this comprehensive overview High strength steels are highly sought
after for industrial and engineering applications ranging from
armored vehicles to welded engineering components built to
withstand considerable stress. The mechanical properties of welded
joints made from high strength steel are integrally linked to the
specific welding process, which can have an enormous impact on
fatigue performance. Welded High Strength Steel Structures: Welding
Effects and Fatigue Performance provides a comprehensive analysis
of high strength steel joints and the ramifications of the welding
process. It guides readers through the process of performing
thermal analysis of high strength steel structures and evaluate
fatigue performance in the face of residual stress. The result is a
volume with innumerable use cases in engineering and manufacture.
Welded High Strength Steel Structures readers will also find: An
author with decades of experience in research and engineering
Numerous studies of various classes of high strength steel joints
Studies on tubular structures for welding residual stress Welded
High Strength Steel Structures is a must-own for welding
specialists, materials scientists, mechanical engineers, and
researchers or industry professionals in related fields.
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