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This book provides a systematic and comprehensive description of
high-entropy alloys (HEAs). The authors summarize key properties of
HEAs from the perspective of both fundamental understanding and
applications, which are supported by in-depth analyses. The book
also contains computational modeling in tackling HEAs, which help
elucidate the formation mechanisms and properties of HEAs from
various length and time scales.
This book provides a systematic and comprehensive description of
high-entropy alloys (HEAs). The authors summarize key properties of
HEAs from the perspective of both fundamental understanding and
applications, which are supported by in-depth analyses. The book
also contains computational modeling in tackling HEAs, which help
elucidate the formation mechanisms and properties of HEAs from
various length and time scales.
High-Entropy Alloys, Second Edition provides a complete review of
the current state of the field of high entropy alloys (HEA).
Building upon the first edition, this fully updated release
includes new theoretical understandings of these materials,
highlighting recent developments on modeling and new classes of
HEAs, such as Eutectic HEAs and Dual phase HEAs. Due to their
unique properties, high entropy alloys have attracted considerable
attention from both academics and technologists. This book presents
the fundamental knowledge, the spectrum of various alloy systems
and their characteristics, key focus areas, and the future scope of
the field in terms of research and technological applications.
This book provides a complete review of the current state of the
art in the field of high entropy alloys (HEA). The conventional
approach to alloy design is to select one principal element and add
elements to it in minor quantities in order to improve the
properties. In 2004, Professor J.W. Yeh and his group first
reported a new approach to alloy design, which involved mixing
elements in equiatomic or near-equiatomic proportions, to form
multi-component alloys with no single principal element. These
alloys are expected to have high configurational entropy and hence
were termed as "high entropy alloys." HEAs have a broad range of
structures and properties, and may find applications in structural,
electrical, magnetic, high-temperature, wear-resistant,
corrosion-resistant, and oxidation-resistant components. Due to
their unique properties, high entropy alloys have attracted
considerable attention from both academics and technologists. This
book presents the fundamental knowledge present in the field, the
spectrum of various alloy systems and their characteristics studied
to date, current key focus areas, and the future scope of the field
in terms of research and technological applications.
Encompasses the synthesis and phase formation of high entropy
alloysCovers design of HEAs based on thermodynamic
criteriaDiscusses the structural and functional properties of
HEAsProvides a comparison of HEAs with other multicomponent systems
like intermetallics and bulk metallic glasses
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