TY  - GEN
AU  - Izuru Takewaki
TI  - Critical Earthquake Response of Elastic-Plastic Structures and Rigid Blocks under Near-Fault Ground Motions: Closed-Form Approach via Double Impulse
SN  - 978-2-88919-870-2
PY  - 2016///
PB  - Frontiers Media SA
KW  - fling-step input
KW  - Critical response
KW  - Long-duration ground motion
KW  - double impulse
KW  - forward-directivity input
KW  - triple impulse
KW  - robustness
KW  - Near-fault ground motion
KW  - Ground motion
KW  - Ductility factor
KW  - uncertainty
KW  - resonance
KW  - Structural parameter
KW  - Earthquake Response
KW  - Elastic-plastic response
KW  - Interval analysis
KW  - Multiple impulse
KW  - Earthquake input energy
KW  - redundancy
KW  - Upper bound of input energy
KW  - earthquake engineering
KW  - critical excitation method
KW  - Energy transfer function
N1  - Open Access
N2  - This eBook is the second in a series of books on the critical earthquake response of elastic-plastic structures or rigid blocks under near-fault ground motions, and includes four original research papers which were published in the specialty section Earthquake Engineering in âFrontiers in Built Environmentâ. Several extensions of the first book1 are included here. The first article is on the soil-structure interaction problem. The reduction of an original soil-structure interaction model into a single-degree-of-freedom (SDOF) model enables the application of the original theory for an SDOF model to such complicated soil-structure interaction model. The second article is concerned with the extension of the original theory for an SDOF model to a 2DOF model. Since the simple application of the original theory for an SDOF model to a multi-degree-of-freedom model is difficult due to out-of-phase phenomenon of multiple masses, a convex model theory is introduced and an upper bound of elastic-plastic response is derived. The third article is related to the stability problem of structures (collapse problems of structures) in which the P-delta effect is included. It is shown that the original theory for an SDOF model with elastic-perfectly plastic restoring-force characteristic can be applied to a model with negative second slope. The fourth article is an application of the energy balance approach to an overturning limit problem of rigid blocks. A closed-form expression of the overturning limit of rigid blocks is derived for the first time after the Housnerâs pioneering work in 1963. The approach presented in this book, together with the first book, is an epoch-making accomplishment to open the door for simpler and deeper understanding of structural reliability of built environments in the elastic-plastic and nonlinear range
UR  - http://www.frontiersin.org/books/Critical_Earthquake_Response_of_Elastic-Plastic_Structures_and_Rigid_Blocks_under_Near-Fault_Ground/885
UR  - https://directory.doabooks.org/handle/20.500.12854/44280
ER  -