Recent Advances in the Design of Structures with Passive Energy Dissipation Systems

Recent Advances in the Design of Structures with Passive Energy Dissipation Systems

Passive vibration control plays a crucial role in structural engineering. Common solutions include seismic isolation and damping systems with various kinds of devices, such as viscous, viscoelastic, hysteretic, and friction dampers. These strategies have been widely utilized in engineering practice,...

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Bibliographic Details
Other Authors: Ricciardi, Giuseppe (Editor), De Domenico, Dario (Editor), Zhang, Ruifu (Editor)
Format: Electronic Book Chapter
Language:English
Published: Basel, Switzerland MDPI - Multidisciplinary Digital Publishing Institute 2020
Subjects:
History of engineering & technology
stay cable
vibration control
hybrid control
inertial mass damper
viscous damper
passive vibration control
inerter system
cable bracing
parametric study
optimal design
tuned mass damper
inerter
high-rise buildings
wind tunnel test
wind-induced response
structural control
synchronous multi-point pressure measurement
seismic protection
displacement-dependent damping
stochastic dynamic analysis
metal damper
performance parameter
cyclic loading test
hysteretic behavior
energy dissipation capability
multi-degree of freedom
graphical approach
suspension bridges
seismic test
pushover test
precast concrete structure
shake table
Base-Isolated Buildings
bearing displacement
STMD
MTMDs
d-MTMDs
incremental dynamic analysis
earthquake
energy dissipation
"double-step" characteristics
stiffness lifting
seismic performance
horizontal connection
prefabricated shear wall structural systems
high-tech factory
lead rubber bearing
moving crane
soil structure interaction
vibration
wind load
motion-based design
uncertainty conditions
constrained multi-objective optimization
reliability analysis
passive structural control
cable-stayed bridges
adjacent buildings
seismic pounding
energy-dissipation systems
distributed damping systems
optimal placement
multibuilding systems
hybrid genetic algorithm
parallel computing
pounding protection
seismic isolation
energy dissipation devices
negative stiffness device
damped structures
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Summary:Passive vibration control plays a crucial role in structural engineering. Common solutions include seismic isolation and damping systems with various kinds of devices, such as viscous, viscoelastic, hysteretic, and friction dampers. These strategies have been widely utilized in engineering practice, and their efficacy has been demonstrated in mitigating damage and preventing the collapse of buildings, bridges, and industrial facilities. However, there is a need for more sophisticated analytical and numerical tools to design structures equipped with optimally configured devices. On the other hand, the family of devices and dissipative elements used for structural protection keeps evolving, because of growing performance demands and new progress achieved in materials science and mechanical engineering. This Special Issue collects 13 contributions related to the development and application of passive vibration control strategies for structures, covering both traditional and innovative devices. In particular, the contributions concern experimental and theoretical investigations of high-efficiency dampers and isolation bearings; optimization of conventional and innovative energy dissipation devices; performance-based and probability-based design of damped structures; application of nonlinear dynamics, random vibration theory, and modern control theory to the design of structures with passive energy dissipation systems; and critical discussion of implemented isolation/damping technologies in significant or emblematic engineering projects.
Physical Description:1 electronic resource (266 p.)
ISBN:books978-3-03936-061-1
9783039360604
9783039360611
Access:Open Access

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