000			02227 a2200361 4500
001			1317290860
005			20250317111616.0
008			250312042017xx eng
020			_a9781317290865
037			_bTaylor & Francis _cGBP 45.99 _fBB
040			_a01
041			_aeng
072	7		_aTB _2thema
072	7		_aTGM _2thema
072	7		_aTN _2thema
072	7		_aTJFM _2thema
072	7		_aTB _2bic
072	7		_aTGM _2bic
072	7		_aTN _2bic
072	7		_aTJFM _2bic
072	7		_aTEC009000 _2bisac
072	7		_aTEC009020 _2bisac
072	7		_aTEC009120 _2bisac
072	7		_aTEC009150 _2bisac
072	7		_aTEC021000 _2bisac
072	7		_a624.15136 _2bisac
100	1		_aTakaji Kokusho
245	1	0	_aInnovative Earthquake Soil Dynamics
250			_a1
260			_bCRC Press _c20170728
300			_a506 p
520			_bInnovative Earthquake Soil Dynamics deals with soil dynamics in earthquake engineering and includes almost all aspects of soil behavior. Both generally accepted basic knowledge as well as advanced and innovative views are accommodated. Major topics are (i) seismic site amplification, (ii) liquefaction and (iii) earthquake-induced slope failure. Associated with the above, basic theories and knowledge on wave propagation/attenuation, soil properties, laboratory tests, numerical analyses, and model tests are addressed in the first part of the book. A great number of earthquake observations in surface soil deposits as well as case histories with new findings are addressed in the later chapters, together with associated laboratory test data. Most of the research results originate from Japan, which is rich in earthquake records and case histories, although mostly isolated from the outside world because of the language barrier. Another important feature characterizing this book is an energy perspective in addition to the force-equilibrium perspective, because it is the author’s strong belief that energy is a very relevant index in determining seismic failures, particularly of soils and soil structures. Innovative Earthquake Soil Dynamics is written for international readers, graduate students, researchers, and practicing engineers, interested in this field.
999			_c5351 _d5351