ASCE Guide SeismicLoads 2015
$46.04
Guide to the Seismic Load Provisions of ASCE 7-10
| Published By | Publication Date | Number of Pages |
| ASCE | 2015 | 244 |
“Seismic Loads: Guide to the Seismic Load Provisions of ASCE 7-10 provides clear, authoritative explanations of the seismic design provisions contained in Minimum Design Loads for Buildings and Other Structures, Standard ASCE/SEI 7-10. When used with the expanded seismic commentary included in ASCE 7-10 (third printing), Seismic Loads assists structural engineers in applying the latest thinking in seismic design of new building structures. Charney presents 22 detailed examples that analyze specific provisions of the standard and demonstrate the application of the provisions to building structures. The examples guide structural engineers through the process of assessing conditions, including identifying risk category, importance factor, and seismic design category; analyzing the seismic requirements; and selecting a structural system. Topics include building irregularities, structural analysis, system forces, load factors, drift, and P-delta effects. All of the examples have been updated to comply with the requirements of ASCE 7-10. An example using modal response history analysis has been added. Seismic Loads includes a section with 26 frequently asked questions, as well as three appendixes with supplementary material. Seismic Loads is an essential companion to Standard ASCE/SEI 7-10 for all engineers, architects, and construction professionals who work on buildings in seismically active locations. Finley A. Charney, Ph.D., P.E., F.ASCE, F.SEI, is a professor of structural engineering at Virginia Tech and is president of Advanced Structural Concepts, Inc., both located in Blacksburg, Virginia.”
PDF Catalog
| PDF Pages | PDF Title |
|---|---|
| 1 | Cover |
| 6 | Contents |
| 8 | Preface |
| 12 | Abbreviations and Symbols |
| 14 | Table of Conversion Factors |
| 16 | Examples 1. Risk Category |
| 22 | 2. Importance Factor and Seismic Design Category |
| 26 | 3. Site Classifi cation Procedure for Seismic Design |
| 34 | 4. Determining Ground Motion Parameters |
| 40 | 5. Developing an Elastic Response Spectrum |
| 44 | 6. Ground Motion Scaling for Response History Analysis |
| 52 | 7. Selection of Structural Systems |
| 60 | 8. Combinations of Lateral Load-Resisting Systems |
| 68 | 9. Horizontal Structural Irregularities |
| 78 | 10. Vertical Structural Irregularities |
| 88 | 11. Diaphragm Flexibility |
| 94 | 12. Structural Analysis Requirements |
| 98 | 13. Use of the Redundancy Factor |
| 104 | 14. Accidental Torsion and Amplifi cation of Accidental Torsion. |
| 112 | 15. Load Combinations |
| 120 | 16. Effective Seismic Weight (Mass) |
| 130 | 17. Period of Vibration |
| 138 | 18. Equivalent Lateral Force Analysis |
| 150 | 19. Drift and P-Delta Effects |
| 162 | 20. Modal Response Spectrum Analysis |
| 180 | 21. Modal Response History Analysis |
| 196 | 22. Diaphragm Forces |
| 200 | Frequently Asked Questions |
| 216 | Appendices A. Interpolation Functions |
| 220 | B. Using the USGS Seismic Hazards Mapping Utility |
| 226 | C. Using the PEER NGA Ground Motion Database |
| 230 | References |
| 234 | Index A B C |
| 235 | D |
| 236 | E F G |
| 237 | H I L M |
| 238 | N |
| 239 | O P R |
| 240 | S |
| 241 | T |
| 242 | U V W |
| 244 | About the Author |
