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Smart ceramic coatings containing multifunctional components are
now finding application in transportation and automotive
industries, in electronics, and energy, sectors, in aerospace and
defense, and in industrial goods and healthcare. Their wide
application and stability in harsh environments are only possible
due to the stability of the inorganic components that are used in
ceramic coatings. Ceramic coatings are typically silicon nitride,
chromia, hafnia, alumina, alumina-magnesia, silica, silicon
carbide, titania, and zirconia-based compositions. The increased
demand for these materials and their application in energy,
transportation, and the automotive industry, are considered, to be
the main drivers. Advanced Ceramic Coatings for Energy Applications
covers recent developments in conducting electrodes, photovoltaics,
solar cells, battery applications, fuel cells, electrocatalysts,
photocatalysts and supercapacitors. The book is one of four volumes
that together provide a comprehensive resource in the field of
Advanced Ceramic Coatings, also including titles covering:
fundamentals, manufacturing, and classification; biomedical
applications; and emerging applications. The books will be
extremely useful for academic and industrial researchers and
practicing engineers who need to find reliable and up-to-date
information about recent progresses and new developments in the
field of advanced ceramic coatings. It will also be of value to
early career scientists providing background knowledge to the
field.
Smart ceramic coatings containing multifunctional components are
now finding application in transportation and automotive
industries, in electronics, and energy, sectors, in aerospace and
defense, and in industrial goods and healthcare. Their wide
application and stability in harsh environments are only possible
due to the stability of the inorganic components that are used in
ceramic coatings. Ceramic coatings are typically silicon nitride,
chromia, hafnia, alumina, alumina-magnesia, silica, silicon
carbide, titania, and zirconia-based compositions. The increased
demand for these materials and their application in energy,
transportation, and the automotive industry, are considered, to be
the main drivers. Advanced Ceramic Coatings for Emerging
Applications covers new developments in automotive, construction,
electronic, space and defense industries. The book is one of four
volumes that together provide a comprehensive resource in the field
of Advanced Ceramic Coatings, also including titles covering:
fundamentals, manufacturing, and classification; energy; and
biomedical applications. The books will be extremely useful for
academic and industrial researchers and practicing engineers who
need to find reliable and up-to-date information about recent
progresses and new developments in the field of advanced ceramic
coatings. It will also be of value to early career scientists
providing background knowledge to the field.
Handbook of Advanced Ceramic Coatings: Fundamentals, Manufacturing
and Classification introduces ceramic coating materials, methods of
fabrication, characterizations, the interaction between fillers,
reinforcers, and environmental impact, and the functional
classification of ceramic coatings. The book is one of four volumes
that together provide a comprehensive resource in the field of
Advanced Ceramic Coatings, also including titles covering energy,
biomedical and emerging applications. These books will be extremely
useful for academic and industrial researchers and practicing
engineers who need to find reliable and up-to-date information
about recent progresses and new developments in the field of
advanced ceramic coatings. Smart ceramic coatings containing
multifunctional components are now finding application in
transportation and automotive industries, in electronics, and
energy sectors, in aerospace and defense, and in industrial goods
and healthcare. Their wide application and stability in harsh
environments are only possible due to the stability of the
inorganic components used. Ceramic coatings are typically silicon
nitride, chromia, hafnia, alumina, alumina-magnesia, silica,
silicon carbide, titania, and zirconia-based compositions. The
increased demand for these materials and their application in
energy, transportation, and the automotive industry, are
considered, to be the main drivers.
Advanced Ceramic Coatings for Biomedical Applications covers tissue
engineering, scaffolds, implant and dental application, wound
healing and adhesives. The book is one of four volumes that
together provide a comprehensive resource in the field of Advanced
Ceramic Coatings, also including titles covering: fundamentals,
manufacturing, and classification; energy applications; and
emerging applications. This books will be extremely useful for
academic and industrial researchers and practicing engineers who
need to find reliable and up-to-date information about recent
progresses and new developments in the field of advanced ceramic
coatings. It will also be of value to early career scientists
providing background knowledge to the field. Smart ceramic coatings
containing multifunctional components are now finding application
in transportation and automotive industries, in electronics, and
energy sectors, in aerospace and defense, and in industrial goods
and healthcare. Their wide application and stability in harsh
environments are only possible due to the stability of the
inorganic components used. Ceramic coatings are typically silicon
nitride, chromia, hafnia, alumina, alumina-magnesia, silica,
silicon carbide, titania, and zirconia-based compositions. The
increased demand for these materials and their application in
energy, transportation, and the automotive industry, are
considered, to be the main drivers.
Corrosion Protection at the Nanoscale explores fundamental concepts
on how metals can be protected at the nanoscale by using both
nanomaterials-based solutions, including nanoalloys, noninhibitors
and nanocoatings. It is an important reference resource for both
materials scientists and engineers wanting to find ways to create
an efficient corrosion prevention strategy. Nanostructure materials
have been widely used in many products, such as print electronics,
contact, interconnection, implant, nanosensors and display units to
lessen the impact of corrosion. Traditional methods for protection
of metals include various techniques, such as coatings, inhibitors,
electrochemical methods (anodic and cathodic protections),
metallurgical design are covered in this book. Nanomaterials-based
protective methods can offer many advantages over their traditional
counterparts, such as protection for early-stage, higher corrosion
resistance, better corrosion control. This book also outlines these
advantages and discusses the challenges of implementing
nanomaterials as corrosion protection agents on a wide scale.
Smart Nanoconcretes and Cement-Based Materials: Properties,
Modelling and Applications explores the fundamental concepts and
applications of smart nanoconcretes with self-healing,
self-cleaning, photocatalytic, antibacterial, piezoelectrical,
heating and conducting properties and how they are used in modern
high-rise buildings, hydraulic engineering, highways, tunnels and
bridges. This book is an important reference source for materials
scientists and civil engineers who are looking to enhance the
properties of smart nanomaterials to create stronger, more durable
concrete.
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