NEHRP Clearinghouse

displaying 31 - 40 results in total 81

  • Shinozuka, M.; Kawakami, H.
    Ground Characteristics and Free Field Strains.
    National Science Foundation, Washington, DC. Engineering and Applied Science., August 1977, 37 p.
    Keywords: Ground motion; Elastic properties; Earthquake engineering; Pipelines; Earthquakes; Water supply; Tokyo (Japan); Soil properties; Earth movements; Shear strain; Soil mechanics; Subsurface structures; Japan

  • Hein, K. H.; Whitman, R. V.
    Effects of Earthquakes on System Performance of Water Lifelines. Seismic Design Decision Analysis.
    National Science Foundation, Washington, DC., May 1976, 84 p.
    Identifying Number(s): R76-23
    Keywords: Ground motion; Urban planning; Earthquake engineering; Water services; Risk analysis; Earthquakes; Pipelines; Water supply; Earth movements; Massachusetts; Probability; Soil mechanics; Disasters; Seismic risk

  • Muleski, G. E.; Ariman, T.; Aumen, C. P.
    A Shell Model of a Buried Pipe in a Seismic Environment.
    National Science Foundation, Washington, DC. Engineering and Applied Science., October 1978, 40 p.
    Identifying Number(s): TR-2
    Keywords: Dynamic structural analysis; Dynamic response; Ground motion; Earthquake engineering; Pipelines; Earthquakes; Viscoelasticity; Underground structures; Cylindrical shells; Earth movements; Seismic waves

  • Wang, L. R. L.
    Seismic Analysis and Design of Buried Pipelines (Seismic Vulnerability, Behavior and Design of Underground Piping Systems).
    National Science Foundation, Washington, DC. Engineering and Applied Science., August 1979, 17 p.
    Keywords: Dynamic structural analysis; Dynamic response; Ground motion; Earthquake engineering; Earthquake resistant structures; Pipelines; Seismic design; Soil properties; Earth movements; Design criteria; Subsurface structures; Seismic risk

  • Lee, L. H. N.; Ariman, T.; Chen, C. C.
    Axisymmetric Buckling of Buried Pipelines by Seismic Excitation.
    National Science Foundation, Washington, DC. Engineering and Applied Science., December 1979, 25 p.
    Identifying Number(s): UND-ERADUPS-TR-5
    Keywords: Dynamic response; Seismic waves; Earthquake engineering; Stress analysis; Pipelines; Earthquakes; Soil structure interactions; Subsurface structures; Buckling; San Fernando earthquake; Dynamic structural analysis

  • Weidlinger, P.; Nelson, I.
    Seismic Analysis of Pipelines with Interference Response Spectra.
    National Science Foundation, Washington, D.C. Applied Science and Research Applications., June 1978, 70 p.
    Keywords: Ground motion; Earthquake engineering; Earthquake resistant structures; Stress analysis; Pipelines; Earthquakes; Earth movements; Shock spectra; Seismic waves

  • Wang, L. R. L.
    Vibration Frequencies of Buried Pipelines (Seismic Vulnerability, Behavior and Design of Underground Piping Systems).
    National Science Foundation, Washington, DC. Applied Science and Research Applications., January 1978, 49 p.
    Keywords: Ground motion; Earthquake engineering; Earthquake resistant structures; Pipelines; Seismic design; Earthquakes; Water pipes; Vibration; Finite element analysis; Piping systems; Subsurface structures; Design; Sewer pipes; Computer aided design

  • Pikul, R. R.; Wang, L. R. L.; O'Rourke, M. J.
    Seismic Vulnerability of the Latham Water Distribution System. A Case Study (Seismic Vulnerability, Behavior and Design of Underground Piping Systems).
    National Science Foundation, Washington, DC. Applied Science and Research Applications., September 1978, 42 p.
    Keywords: Dynamic structural analysis; Latham Water District; New York; Earthquake engineering; Earthquake resistant structures; Pipelines; Water pipes; Structural design; Earthquakes; Buried pipelines; Subsurface structures; Albany County (New York); Sewer pipes; Seismic risk

  • Wang, L. R. L.; O'Rourke, M. J.
    State of the Art of Buried Lifeline Earthquake Engineering.
    National Science Foundation, Washington, DC. Applied Science and Research Applications., January 1977, 17 p.
    Keywords: Failure; Earthquake engineering; Earthquake resistant structures; Pipelines; Earthquakes; Water pipelines; State of the art; Design criteria; Subsurface structures; Reprints; Sewer pipes

  • 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