NEHRP Clearinghouse
displaying 1 - 10 results in
total 18
Elhmadi, K.; O'Rourke, M. J.
Seismic Wave Propagation Effects on Straight Jointed Buried Pipelines.
National Center for Earthquake Engineering Research, Buffalo, NY.; National Science Foundation, Washington, DC., August 24, 1989, 224 p.
Keywords: Earthquake engineering; Pipelines; Cast iron; Water pipelines; Underground structures; Pipe joints; Subsurface structures; Soil mechanics; Mathematical models; Numerical solution; Seismic riskMeis, R. D.; Maragakis, E. M.; Siddharthan, R.
Behavior of Underground Piping Joints Due to Static and Dynamic Loading.
National Science Foundation, Arlington, VA., November 2003, 262 p.
Identifying Number(s): MCEER-03-0006
Keywords: Underground piping; Pipes (Tubes); Static loads; Loads (Forces); Pipelines; Testing; Joints; Mechanical properties; Research programs; Stiffness; Moment rotation; Strength (Mechanics); Load displacement; Pipe joints; Dynamic loads; Bending momentsWang, L. R. L.
Quasi-Static Analysis Formulation for Straight Buried Piping Systems, (Seismic Vulnerability, Behavior and Design of Underground Piping Systems).
National Science Foundation, Washington, DC. Applied Science and Research Applications., July 1978, 31 p.
Keywords: Earthquake engineering; Earthquake resistant structures; Pipelines; Seismic design; Earthquakes; Water pipes; Piping systems; Pipe joints; Subsurface structures; Design; Sewer pipes; Dynamic structural analysisWright, J. P.; Takada, S.
Earthquake Response Characteristics of Jointed and Continuous Buried Lifelines.
National Science Foundation, Washington, DC. Engineering and Applied Science., January 1980, 18 p.
Keywords: Dynamic response; Earthquake engineering; Pipelines; Earthquakes; Underground structures; Displacement; Pipe joints; Resonant frequencyShinozuka, M.; Koike, T.
Estimation of Structural Strains in Underground Lifeline Pipes.
National Science Foundation, Washington, DC. Engineering and Applied Science., March 1979, 24 p.
Keywords: Seismic waves; Earthquake engineering; Earthquake resistant structures; Stress analysis; Pipelines; Soil structure interactions; Numerical analysis; Wave propagation; Pipe joints; Subsurface structures; Dynamic structural analysisAlipour, E. M.; Young, F. M.
Approximations of Head and Flow Distributions in Liquid Filled Piping Networks Subject to Seismic Excitation Using a Steady Oscillatory Flow Model.
National Science Foundation, Washington, DC., August 31, 1981, 118 p.
Keywords: Method of characteristics; Computer programs; Earthquake engineering; Earthquakes; Piping systems; Transient response; Pipe flow; Pipe joints; Unsteady flowKratky, R. J.; Nelson, I.; Salvadori, M. G.; Weidlinger, P.
Suggested Experiments on Straight Pipes in Air and in Soil.
National Science Foundation, Washington, DC. Applied Science and Research Applications., January 1979, 94 p.
Keywords: Pipes (Tubes); Earthquake engineering; Dynamic tests; Static tests; Pipelines; Concrete pipes; Hydrostatic tests; Bibliographies; Soil mechanics; Subsurface structures; Pipe joints; Pipe soil interactionsWang, L. R. L.
Static and Quasi-static Seismic Analyses of Buried Pipelines. (Seismic Vulnerability, Behavior and Design of Underground Piping Systems).
National Science Foundation, Washington, DC. Engineering and Applied Science., June 1980, 116 p.
Keywords: Underground pipelines; Dynamic response; Elastic properties; Earthquake resistant structures; Pipelines; Pipe joints; Subsurface structures; Seismic wavesWang, L. R. L.; O'Rourke, M. J.; Pikul, R. R.
Seismic Vulnerability, Behavior and Design of Buried Pipelines, Final Report of Phase I Study. (Seismic Vulnerability, Behavior and Design of Underground Piping Systems).
National Science Foundation, Washington, DC. Engineering and Applied Science., March 1979, 148 p.
Keywords: Seismic waves; Dynamic structural analysis; Ground motion; New York; Earthquake engineering; Risk analysis; Pipelines; Earthquakes; Buried pipelines; Earth movements; Albany (New York); Piping systems; Pipe joints; Subsurface structures; California; San Fernando earthquake; Seismic riskKratky, R. G.; Salvadori, M. G.
Strength and Dynamic Characteristics of Mechanically Jointed Cast-Iron Water Pipelines.
National Science Foundation, Washington, D.C. Applied Science and Research Applications., June 1978, 48 p.
Keywords: Failure; Rubber gaskets; Elastic properties; Earthquake engineering; Earthquake resistant structures; Stress analysis; Pipelines; Earthquakes; Water pipes; Cast iron; Water pipelines; Tensile strength; Earth movements; Piping systems; Pipe joints; Subsurface structures; Metal pipe; Bending moments; Bolted joints; Dynamic structural analysis