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The increasing demand for materials which enable a more efficient
energy conversion - materials allowing higher operating
temperatures and a lower weight of the components with preferably
better corrosion resistance- has put intermetallic-based alloys
back into focus. For example, the recent use of light weight,
TiAl-based alloys for automotive and aerospace applications has
spurred research on other intermetallic-based alloys. In addition
to structural intermetallics for extreme environments encountered
in advanced energy systems, this book also focuses on fundamental
and interdisciplinary aspects of novel intermetallic-metal systems
(e.g., Co-based superalloys) and functional intermetallics that can
store energy, generate power and enhance reliability. Topics
include: intermetallics for hydrogen storage and thermoelectric
applications; iron aluminides - physical metallurgy; titanium
aluminides - physical metallurgy; titanium aluminides - structure,
properties and coatings; iron aluminides, titanium aluminides,
nickel aluminides and silicides; nickel/cobalt superalloys and
nickel aluminides; niobium and molybdenum silicide-based alloys;
laves phases and fundamental aspects of intermetallics - phase
stability, defects and theory.
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