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This book provides comprehensive coverage of Lithium (Li) metal
anodes for rechargeable batteries. Li is an ideal anode material
for rechargeable batteries due to its extremely high theoretical
specific capacity (3860 mAh g-1), low density (0.59 g cm-3), and
the lowest negative electrochemical potential ( 3.040 V vs.
standard hydrogenelectrodes). Unfortunately, uncontrollable
dendritic Li growth and limited Coulombic efficiency during Li
deposition/stripping inherent in these batteries have prevented
their practical applications over the past 40 years. With the
emergence of post Liion batteries, safe and efficient operation of
Li metal anodes has become an enabling technology which may
determine the fate of several promising candidates for the next
generation energy storage systems, including rechargeable Li-air
batteries, Li-S batteries, and Li metal batteries which utilize
intercalation compounds as cathodes. In this work, various factors
that affect the morphology and Coulombic efficiency of Li anodes
are analyzed. The authors also present the technologies utilized to
characterize the morphology of Li deposition and the results
obtained by modeling of Li dendrite growth. Finally, recent
developments, especially the new approaches that enable safe and
efficient operation of Li metal anodes at high current densities
are reviewed. The urgent need and perspectives in this field are
also discussed. The fundamental understanding and approaches
presented in this work will be critical for the applicationof Li
metal anodes. The general principles and approaches can also be
used in other metal electrodes and general electrochemical
deposition of metal films.
This book provides a systematic and standardized approach based on
the authors' over 30 years of research experience with weight
function methods, as well as the relevant literature. Fracture
mechanics has become an indispensable tool for the design and safe
operation of damage-tolerant structures in many important technical
areas. The stress intensity factor-the characterizing parameter of
the crack tip field-is the foundation of fracture mechanics
analysis. The weight function method is a powerful technique for
determining stress intensity factors and crack opening
displacements for complex load conditions, with remarkable
computational efficiency and high accuracy. The book presents the
theoretical background of the weight function methods, together
with a wealth of analytical weight functions and stress intensity
factors for two- and three-dimensional crack geometries; many of
these have been incorporated into national, international standards
and industrial codes of practice. The accuracy of the results is
rigorously verified, and various sample applications are provided.
Accordingly, the book offers an ideal reference source for graduate
students, researchers, and engineers whose work involves fracture
and fatigue of materials and structures, who need not only stress
intensity factors themselves but also efficient and reliable tools
for obtaining them.
This book provides a systematic and
standardized approach based on the authors’ over 30
years of research experience with weight function methods, as well
as the relevant literature. Fracture mechanics has become an
indispensable tool for the design and safe operation of
damage-tolerant structures in many important technical areas. The
stress intensity factor—the characterizing parameter of the crack
tip field—is the foundation of fracture mechanics analysis. The
weight function method is a powerful technique for determining
stress intensity factors and crack opening displacements for
complex load conditions, with remarkable computational efficiency
and high accuracy. The book presents the theoretical background of
the weight function methods, together with a wealth of analytical
weight functions and stress intensity factors for two- and
three-dimensional crack geometries; many of these have been
incorporated into national, international standards and industrial
codes of practice. The accuracy of the results is rigorously
verified, and various sample applications are provided.
Accordingly, the book offers an ideal reference source for graduate
students, researchers, and engineers whose work involves fracture
and fatigue of materials and structures, who need not only stress
intensity factors themselves but also efficient and reliable tools
for obtaining them.
This book provides comprehensive coverage of Lithium (Li) metal
anodes for rechargeable batteries. Li is an ideal anode material
for rechargeable batteries due to its extremely high theoretical
specific capacity (3860 mAh g-1), low density (0.59 g cm-3), and
the lowest negative electrochemical potential ( 3.040 V vs.
standard hydrogenelectrodes). Unfortunately, uncontrollable
dendritic Li growth and limited Coulombic efficiency during Li
deposition/stripping inherent in these batteries have prevented
their practical applications over the past 40 years. With the
emergence of post Liion batteries, safe and efficient operation of
Li metal anodes has become an enabling technology which may
determine the fate of several promising candidates for the next
generation energy storage systems, including rechargeable Li-air
batteries, Li-S batteries, and Li metal batteries which utilize
intercalation compounds as cathodes. In this work, various factors
that affect the morphology and Coulombic efficiency of Li anodes
are analyzed. The authors also present the technologies utilized to
characterize the morphology of Li deposition and the results
obtained by modeling of Li dendrite growth. Finally, recent
developments, especially the new approaches that enable safe and
efficient operation of Li metal anodes at high current densities
are reviewed. The urgent need and perspectives in this field are
also discussed. The fundamental understanding and approaches
presented in this work will be critical for the applicationof Li
metal anodes. The general principles and approaches can also be
used in other metal electrodes and general electrochemical
deposition of metal films.
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Trustworthy Computing and Services - International Conference, ISCTCS 2014, Beijing, China, November 28-29, 2014, Revised Selected papers (Paperback, 2015 ed.)
Lu Yueming, Wu Xu, Zhang XI
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R2,646
Discovery Miles 26 460
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Ships in 10 - 15 working days
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This book constitutes the refereed proceedings of the International
Standard Conference on Trustworthy Computing and Services, ISCTCS
2014, held in Beijing, China, in November 2014. The 51 revised full
papers presented were carefully reviewed and selected from 279
submissions. The topics covered are architecture for trusted
computing systems; trusted computing platform; trusted system
building; network and protocol security; mobile network security;
network survivability, other critical theories and standard
systems; credible assessment; credible measurement and metrics;
trusted systems; trusted networks; trusted mobile networks; trusted
routing; trusted software; trusted operating systems; trusted
storage; fault-tolerant computing and other key technologies;
trusted e-commerce and e-government; trusted logistics; trusted
internet of things; trusted cloud and other trusted services and
applications.
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