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This book gives a comprehensive account on the manufacturing
techniques to synchronize the desired properties of both
traditional and advanced ceramics. Offers exclusive and up to date
information on industrial ceramic processing equipment and
approaches and discusses actual industrial practices taking a
product-oriented approach It should serve as a text to answer the
processing of ceramics and achieve targeted product in industrial
environment.
Fundamental Design of Steelmaking Refractories Comprehensive
up-to-date resource organizing fundamental aspects for the design
and performance of steelmaking refractories Fundamental Design of
Steelmaking Refractories provides a fundamental understanding in
the design of steelmaking refractories, in detail and all in one
source, enabling readers to understand various issues including how
heat and mass transfer occurs throughout the refractory, how matrix
impurity or their contact affects the phases, and how invisible
defects form during refractory manufacturing that eventually
facilitates to analyze wear, corrosion, and performance of
different refractory linings for primary and secondary steelmaking
vessels, tundish, and continuous casting refractories. Other
specific sample topics covered in Fundamental Design of Steelmaking
Refractories include: Phase formations and correlation with
impurity effects and refractory processing shortcomings Stress,
wear, and corrosion to design refractories and performance
statistics of steelmaking refractories Equilibrium and
non-equilibrium phases, packing, stress and defects in compaction,
and degree of ceramic bonding Thermal and mechanical behavior, flow
control mechanisms, continuous casting refractories, and premature
refractory damage Precast and purging system, consistent supply and
time management, and preventive maintenance in operation With its
complete coverage of the subject, Fundamental Design of Steelmaking
Refractories fulfills the academic demand of undergraduate,
postgraduate, and research scholars of ceramic engineering;
metallurgical engineers and mechanical engineering outlets that
want to nurture in the refractory and steel sectors will also find
value in the text.
This book discusses fundamentals of nanostructured ceramics
involving functional, structural and high temperature materials. It
provides both solved numerical problems and unsolved problems to
enable the reader to envisage the correlation between synthesis
process and properties in the perspective of new material
development. It serves as a concise text to answer the basics and
achieve research goals for academia and industry. Key Features
Deals with basic strategy on data interpretation for nanostructured
ceramics Proposes to bridge the gap between the nano and bulk
properties of nanostructured ceramics Discusses brief schematics
and equations to understand the different properties of nano to
bulk ceramics Presents mode of data acquisition and interpretation
through statistical module and solved numerical Includes unsolved
numericals based on properties, data acquisition and interpretation
This book discusses fundamentals of nanostructured ceramics
involving functional, structural and high temperature materials. It
provides both solved numerical problems and unsolved problems to
enable the reader to envisage the correlation between synthesis
process and properties in the perspective of new material
development. It serves as a concise text to answer the basics and
achieve research goals for academia and industry. Key Features
Deals with basic strategy on data interpretation for nanostructured
ceramics Proposes to bridge the gap between the nano and bulk
properties of nanostructured ceramics Discusses brief schematics
and equations to understand the different properties of nano to
bulk ceramics Presents mode of data acquisition and interpretation
through statistical module and solved numerical Includes unsolved
numericals based on properties, data acquisition and interpretation
This book gives a comprehensive account on the manufacturing
techniques to synchronize the desired properties of both
traditional and advanced ceramics. Offers exclusive and up to date
information on industrial ceramic processing equipment and
approaches and discusses actual industrial practices taking a
product-oriented approach It should serve as a text to answer the
processing of ceramics and achieve targeted product in industrial
environment.
Single Atom Catalysts: Design, Synthesis, Characterization, and
Applications in Energy focuses on the synthesis, design and
advanced characterization techniques for single atom catalyst
materials and their direct energy conversion and storage
applications. This book reviews emerging applications of single
atom catalysts in fuel cells, batteries, water splitting, carbon
dioxide reduction, and nitrogen fixation. Both noble metal and
non-noble metal single atom catalysts (SACs) are discussed as noble
metal-based SACs are highly efficient and non-noble metal-based
SACs might have lower associated costs. There is an emphasis on
materials design focused on improving performance of catalysts
based on overall catalytic activity, selectivity and stability.
Specific parameters that impact this performance are emphasized
throughout the book, including single metal atom stabilization,
metal-support interactions and the coordination environment.
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