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Nonlinear Damage Behavior of Ceramic Matrix Composites help readers
[researchers, material scientists and design engineers] gain
greater understanding on the damage mechanisms inside CMCs so they
can better design components used in aeronautics and astronautics.
Key areas addressed in the book include: the nonlinear damage
behavior of ceramic-matrix composites, including damage mechanisms
and models, nonlinear damage behavior of ceramic-matrix composites
under tensile and fatigue loading, strain-rate dependent,
stochastic loading dependent, and time dependent nonlinear damage
behavior, and the effect of pre-exposure and thermal fatigue on
non-linear damage behavior of ceramic-matrix composites.
Ceramic Matrix Composites: Lifetime and Strength Prediction Under
Static and Stochastic Loading focuses on the strain response and
lifetime prediction of fiber-reinforced ceramic-matrix composites
under stress-rupture loading at intermediate temperatures. Typical
damage mechanisms of matrix cracking, interface debonding and
oxidation, and fiber's oxidation and fracture are considered in the
micromechanical analysis. Effects of composite's constituent
properties, peak stress, and testing temperature on the composite's
strain response and lifetime are analyzed in detail. Comparison of
constant and different stochastic stress spectrum on composite's
damage evolution and fracture are also discussed. The book will be
a practical guide for the material researcher and component
designer needing to better understand the composite's damage and
fracture behavior under stress-rupture loading at intermediate
temperatures.
Durability of Ceramic-Matrix Composites presents the latest
information on these high-temperature structural materials and
their outstanding advantages over more conventional materials,
including their high specific strength, high specific modulus, high
temperature resistance and good thermal stability. The critical
nature of the application of these advanced materials makes it
necessary to have a complete understanding of their
characterization. This book focuses explicitly on the durability of
CMCs and will be extremely valuable for materials scientists and
engineers who are dealing with the simulation of durability
response and fatigue of ceramic matrix composites.
Fiber-reinforced Nanocomposites: Fundamentals and Applications
explores the fundamental concepts and emerging applications of
fiber-reinforced nanocomposites in the automobile, aerospace,
transportation, construction, sporting goods, optics, electronics,
acoustics and environmental sector. In addition, the book provides
a detailed overview of the properties of fiber-reinforced
nanocomposites, including discussion on embedding these
high-strength fibers in matrices. Due to the mismatch in structure,
density, strain and thermal expansion coefficients between matrix
and fibers, their thermo-mechanical properties strongly depend not
only on the preparative methods, but also on the interaction
between reinforcing phase and matrix phase. This book offers a
concise overview of these advances and how they are leading to the
creation of stronger, more durable classes of nanocomposite
materials.
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