000			02122nam a2200241 a 4500
005			20170220121112.0
008			170220s2012 -usa|||fr|||| 001 0 eng d
020			_a9780071792387
040			_aCO-BoUGC _cCO-BoUGC _d16
041			_aeng
082	0	4	_a624.1762 _bD19g _221
100	1		_aDay, Robert W.
245	1	0	_aGeotechnical earthquake engineering hanbook _bwith the 2012 itnernational building code
250			_a2a ed.
260	3		_aEstados Unidos _bMc Graw-Hill _c2012
505	0		_a-- Part 1: introduction to earthquakes; 2. Basic earthquake principles; 3. Common earthquake effects; 4. Earthquake structural damage -- Part 2: geotechnical; Earthquake engineering analyses; 5. Site investigation for geotechnical earthquake engineering; 6. Liquefaction; 7. Earthquake-induced settlement; 8. Bearing capacity analyses for earthquakes; 9. Slope stability analyses for earthquakes; 10. Retaining wall analyses for earthquakes; 11. Other geotechnical earthquake engineering analyses; -- Part 3: site improvement methods to mitigate earthquake effects; 12. Grading and other soil improvement methods; 13. Foundation alternatives to mitigate earthquake effects; -- Part 4: Building codes and summary chapter; 14. Earthquake provisions in building codes; 15. Summary of geotechnical earthquake engineering
520	1		_aThe purpose of this book is to present the practical aspects of geotechnical earthquake engineering. Because of the assumptions and uncertainties associated with geotechnical engineering, it is often described as an "art" rather than exact science. Geotechnical earthquake engineering is even more challenging because of the inherent unknowns associated with earthquakes. Because of these uncertainties in earthquake engineering, simple analyses are prominent in this book, with complex and theoretical evaluations kept to an essential minimum
650	1	7	_aIngenieria sísmica _2ARMARC _997721
650	1	7	_aAnálisis de riesgo sísmico _2ARMARC _997722
650	1	7	_aDiseño sismoresistente _2ARMARC _997723
710	2		_aInternationational code council, ICC _997724
942			_2ddc _cPRE
999			_c195266 _d195266