NEHRP Clearinghouse

displaying 21 - 30 results in total 52

  • Geotechnical Reconnaissance of the Effects of the January 17, 1995, Hyogoken-Nanbu Earthquake, Japan.
    National Science Foundation, Washington, DC. Directorate for Engineering., July 1995, 168 p.
    Identifying Number(s): UCB/EERC-95/01
    Keywords: Damage assessment; Dams; Soil-structure interactions; Water supply; Seismicity; Japan; Bridges; Earthquake damage; Communication links; Public transportation; Pipelines; Earthquakes; Landfills; Honshu Island; Rock falls; Liquefaction; Ground motion; Buildings; Foundations (Structures); Seismic effects; Dynamic structural analysis; Levees; Landslides; Nyogoken-Nanbu Earthquake

  • Idriss, I. M.
    Assessment of Site Response Analysis Procedures.
    National Inst. of Standards and Technology (BFRL), Gaithersburg, MD., July 1993, 156 p.
    Keywords: Seismic response; San Francisco (California); Soil-structure interactions; Yerba Buena Island; Site characterization; Soil dynamics; Seismic velocity; San Francisco Airport; Soil mechanics; Shear strain; Ground motion; Treasure Island Naval Station; Loma Prieta Earthquake; Seismic effects; Spectrum analysis; Shear waves; California; Subsurface investigations; Seismic waves; Seismographs; Shear stress; Accelerometers; Seismological station

  • Huo, J. R.; Hwang, H. H. M.
    Seismic Fragility Analysis of Equipment and Structures in a Memphis Electric Substation.
    National Science Foundation, Arlington, VA. Buffalo, NY.; New York State Science and Technology Foundation, Albany., August 10, 1995, 170 p.
    Identifying Number(s): NCEER-95-0014
    Keywords: Performance evaluation; Hazards; Seismic response; Damage assessment; Power substations; Soil-structure interactions; Electric utlities; Capacitors; Earthquake damage; Lightning arresters; Switches; Circuit breakers; Ground motion; Electrical equipment; Transformers; Earthquake engineering; Seismic effects; Seismic waves; New Madrid Seismic Zone; Fragility analysis; Voltage regulators; Memphis (Tennessee); Potheats

  • Earthquake Engineering Research at Berkeley, 1996.
    Applied Technology Council, Berkeley, CA.; Business, Transportation and Housing Agency, Sacramento, CA.; California Seismic Safety Commission, Sacramento.; Federal Emergency Management Agency, Washington, DC., February 1997, 256 p.
    Identifying Number(s): UCB/EERC-96/01
    Keywords: ; Tension; Ground motion; Design analysis; Steel structures; Earthquake engineering; Dams; Meetings; Vibration isolators; Ductility; Soil-structure interactions; Reinforced concrete; Vibration damping; Earthquake resistance structures; Design criteria; Displacement; Steel construction; Research projects; Bridges (Structures); Seismic isolation; Dynamic structural analysis

  • Singhal, A.; Kiremidjian, A. S.
    Method for Earthquake Motion-Damage Relationships with Application to Reinforced Concrete Frames.
    National Center for Earthquake Engineering Research, Buffalo, NY.; National Science Foundation, Arlington, VA., September 10, 1997, 256 p.
    Keywords: ; Dynamic response; Ground motion; Earthquake damage; Damage assessment; Earthquake engineering; Structural components; Fragility; Monte Carlo method; Autoregressive processes; Sensitivity analysis; Frames; Bayes theorem; Reinforced concrete; Soil-structure interactions; Structural failure; Seismic effects; Gaussian processes; Probability; Concrete structures; Mathematical models

  • Anderson, J. C.; Bertero, V. V.
    Implications of the Landers and Big Bear Earthquakes on Earthquake Resistant Design of Structures.
    National Science Foundation, Arlington, VA., July 1997, 110 p.
    Identifying Number(s): UCB/EERC-97/08
    Keywords: Ground motion; Buildings; Damage assessment; Earthquake engineering; Seismic design; Soil-structure interactions; Big Bear (California); Landers (California); California; San Bernandina Mountains; Mojave desert; Ductility

  • Holzer, T. L.
    Loma Prieta, California, Earthquake of October 17, 1989. Earth Structures and Engineering Characterization of Ground Motion.
    January 1998, 86 p.
    Identifying Number(s): USGS-PP-1552-D
    Keywords: Earthquake damage; Ground motion; Damage assessment; Earthquake engineering; Earth dams; Soil-structure interactions; Acceleration; Loma Prieta Earthquake; Seismic effects; Seismic events; Seismic velocity; Central Region (California); Engineering structures; Excavation; Peak values; Seismic waves

  • Dikkers, R. D.; Chung, R. M.; Mohraz, B.; Lew, H. S.; Wright, R. N.
    Proceedings of a Workshop on Developing and Adopting Seismic Design and Construction Standards for Lifelines. Held in Denver, Colorado on September 25-27, 1991.
    Federal Emergency Management Agency, Washington, DC., October 1996, 356 p.
    Identifying Number(s): NISTIR-5907
    Keywords: Vulnerability; Economic analysis; Seismic design; Soil-structure interactions; Liquid fuels; Earthquake resistance; Natural gas distribution systems; Regulations; Guidelines; Government policies; Water systems; Electric power; Construction; Design standards; Government agencies; Lifelines; Federal government; Public utilities; Earthquake engineering; Meetings; Sewer systems; Transportation sector; Telecommunication

  • Marshall, R. D.; Phan, L. T.; Celebi, M.
    Measurement of Structural Response Characteristics of Full-Scale Buildings: Comparison of Results from Strong-Motion and Ambient Vibration Records.
    Geological Survey, Menlo Park, CA. Branch of Engineering Seismology and Geology., October 1992, 87 p.
    Identifying Number(s): NISTIR-4884
    Keywords: Dynamic response; Earthquake damage; Signal processing; Buildings; Earthquake engineering; Data acquisition; San Francisco (California); Structural vibration; Earthquakes; Soil-structure interactions; Vibration damping; Loma Prieta Earthquake; Seismic effects; Displacement

  • Chung, R.
    January 17, 1995 Hyogoken-Nanbu (Kobe) Earthquake. Performance of Structures, Lifelines and Fire Protection Systems. Executive Summary and Paper.
    July 1996, 574 p.
    Identifying Number(s): NIST/SP-901
    Keywords: Damage assessment; Soil-structure interactions; Harbors; Gas utilities; Bridges; Airports; Earthquake damage; Communication links; Steel structures; Water treatment plants; Pipelines; Electric power; Hyogoken-Nanbu Earthquake; Lifelines; Liquefaction; Public utilities; Sewage treatment plants; Buildings; Earthquake engineering; Wood structures; Reinforced concrete; Seismic effects; Hokkaido Island; Sewer systems; Fires; Kobe (Japan); Dynamic structural analysis; Transportation sector; Highways; Subways