NEHRP Clearinghouse
displaying 561 - 570 results in total 2187
Wright, 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: Pipe joints; Dynamic response; Earthquake engineering; Resonant frequency; Displacement; Underground structures; Pipelines; EarthquakesKrishnamoorthy, G.; Ho, C. H.; Nunn, R.
Earthquake Response and Damage Prediction of Reinforced Concrete Masonry Multistory Buildings: Modification of NONSAP for Kinematic Input.
National Science Foundation, Washington, D.C. Research Applied to National Needs., August 1975, 33 p.
Identifying Number(s): AMES-NSF-TR-75-3
Keywords: Earthquake resistant structures; Reinforced concrete; Kinematics; NONSAP computer program; Numerical integration; Finite element analysis; Buildings; Dynamic response; Computer programming; Earthquakes; Dynamic structural analysisHegemier, G. A.; Krishnamoorthy, G.; Nunn, R. O.; Moorthy, T. V.
Earthquake Response and Damage Prediction of Reinforced Concrete Masonry Multistory Buildings: Prism Tests for the Compressive Strength of Concrete Masonry.
November 1977, 78 p.
Identifying Number(s): AMES-NSF-TR-77-001
Keywords: Masonry; Compression tests; Earthquake resistant structures; Dynamic response; Buildings; Prism tests; Building codes; Concrete construction; Earthquakes; Dynamic structural analysisO'Rourke, M. J.; Wang, L. R. L.
Earthquake Response of Buried Pipelines. (Seismic Vulnerability, Behavior and Design of Underground Piping Systems).
National Science Foundation, Washington, DC. Applied Science and Research Applications., March 1978, 17 p.
Keywords: Seismic design; Earthquake resistant structures; Water pipes; Seismic waves; Buried pipelines; Subsurface structures; Earth movements; Sewer pipes; Ground motion; Earthquake engineering; Pipelines; Earthquakes; Dynamic structural analysischopra, A. K.; Chakrabarti, P.; Gupta, S.
Earthquake Response of Concrete Gravity Dams Including Hydrodynamic and Foundation Interaction Effects.
January 1980, 202 p.
Identifying Number(s): UCB/EERC-80/01
Keywords: Water; Concrete; California; Gravity dams; Pine Flat Dam; Reservoirs; Foundations (Structures); Ground motion; Frequency; Response; Dams; Hydrodynamics; Interactions; Earthquakesichatrapimuk, T.
Earthquake Response of Coupled Shear Wall Buildings.
National Science Foundation, Washington, D.C., November 1976, 140 p.
Identifying Number(s): EERC-76-27
Keywords: Shear walls; Earth movements; Walls; Shear stresses; Dynamic response; Ground motion; Earthquake engineering; Degrees of freedom; Theses; Deflection; Design criteria; EarthquakesRubin, L. I.; Abdel-Ghaffar, A. M.; Scanlan, R. H.
Earthquake Response of Long-Span Suspension Bridges.
National Science Foundation, Washington, DC., May 1983, 576 p.
Identifying Number(s): R-83-SM-13
Keywords: Golden Gate Bridge; Tacoma Narrows Bridge; California; Mathematical models; Computer applications; Ground motion; Earthquake engineering; Vincent Thomas Bridge; Suspension bridges; Bridge foundations; Dynamic response; Soil dynamics; Random vibration; Soil structure interactions; Finite element analysis; Washington (State); Earthquakes; Forced vibrationLee, S. C.; Ko, D. R.
Earthquake Response of Sea-Based Storage Tanks by a Hybrid Element Method-Theory and Computer Analysis.
National Science Foundation, Washington, DC., March 1981, 214 p.
Identifying Number(s): DT-7814-2
Keywords: Seismic design; Earthquake resistant structures; User needs; Storage tanks; Underwater structures; Dynamic response; Finite element analysis; Earthquake engineering; Oil storage; Computer programs; ERST computer program; Hydrodynamics; EarthquakesHejal, R.; Chopra, A. K.
Earthquake Response of Torsionally-Coupled Buildings.
National Science Foundation, Washington, DC., December 1987, 354 p.
Identifying Number(s): UCB/EERC-87/20
Keywords: Response spectra; Framed structures; Eccentricity; Elastic analysis; Earthquake engineering; Shear modulus; Stiffness; Static structural analysis; Lateral pressureLiu, B. C.; Hsieh, C. T.; Gustafson, R.; Nuttli, O.; Gentile, R.
Earthquake Risk and Damage Functions: An Integrated Preparedness and Planning Model Applied to New Madrid.
National Science Foundation, Washington, DC. Engineering and Applied Science., December 7, 1979, 335 p.
Keywords: Saint Louis (Missouri); Mississippi; Damage assessment; Predictions; Earthquake resistant structures; Illinois; Tennessee; Arkansas; Seismic risk; Risk; New Madrid fault; Earthquake engineering; Hazards; Kentucky; Memphis (Tennessee); Missouri; Earthquakes; Dynamic structural analysis