NEHRP Clearinghouse
displaying 281 - 290 results in
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Rautian, T.; Leith, W.
Composite Regional Catalogs of Earthquakes in the Former Soviet Union.
December 2002, 53 p.
Identifying Number(s): USGS/OFR-02-500
Keywords: ; Comprehensive compilation; Composite regional catalogs; Earthquakes; Eurasian land mass; Data; Seismicity; Former Soviet Union; Seismological studyMiles, S. B.; Keefer, D. K.
Comprehensive Areal Model of Earthquake-Induced Landslides: Technical Specification and User Guide.
January 2007, 69 p.
Identifying Number(s): USGS-OFR-2007-1072
Keywords: ; Rocks; Hazards; Earthquakes; Soils; User guides; Landslides; Maps; DesignBrocher, T. M.
Compressional and Shear Wave Velocity versus Depth in the San Francisco Bay Area, California: Rules for USGS Bay Area Velocity Model 05.0.0.
January 2005, 62 p.
Identifying Number(s): USGS-OFR-05-1317
Keywords: Bays; Rock mechanics; Velocity distribution; Earthquakes; Shear waves; California; San Francisco BayZhang, L.; Chopra, A. K.
Computation of Spatially Varying Ground Motion and Foundation-Rock Impedance Matrices for Seismic Analysis of Arch Dams.
National Science Foundation, Washington, DC., May 1991, 134 p.
Identifying Number(s): UCB/EERC-91/06
Keywords: ; Dynamic response; Arch dams; Boundary element method; Earthquake engineering; Foundations; Green's functions; Soil-structure interactions; Matrices (Mathematics); Earth movements; Mathematical models; Fourier transformationMosalam, K. M.; White, R. N.; Gergely, P.
Computational Strategies for Frames with Infill Walls: Discrete and Smeared Crack Analyses and Seismic Fragility.
National Science Foundation, Arlington, VA., December 31, 1997, 188 p.
Identifying Number(s): NCEER-97-0021
Keywords: ; Buildings; Earthquake engineering; Cracking (Fracturing); Masonry; Seismic design; Finite element analysis; Walls; Mathematical models; Concrete blocksTakayanagi, T.; Schnobrich, W. C.
Computed Behavior of Reinforced Concrete Coupled Shear Walls.
National Science Foundation, Washington, D.C., December 1976, 202 p.
Identifying Number(s): ['STRUCTURAL RESEARCH SER-434', 'UILU-ENG-76-2024']
Keywords: Dynamic response; Buildings; Earthquake engineering; Hysteresis; Loads (Forces); Earthquakes; Shear walls; Walls; Nonlinear systems; Stiffness methods; Dynamic structural analysisKeshavarzian, M.; Schnobrich, W. C.
Computed Nonlinear Seismic Response of R/C Wall-Frame Structures.
National Science Foundation, Washington, DC., May 1984, 230 p.
Identifying Number(s): ['STRUCTURAL RESEARCH SER-515', 'UILU/ENG-84/2004']
Keywords: Seismic surveys; Buildings; Dynamic tests; Computer applications; Reinforced concrete; Structural engineering; Walls; Mathematical models; Framed structures; Nonlinear systemsKariotis, J. C.; Waqfi, O. M.; Ewing, R. D.
Computer Program Using Beam Elements for the Nonlinear, Dynamic Analysis of Lumped Parameter Models.
National Science Foundation, Washington, DC., February 1992, 96 p.
Identifying Number(s): REPT-2.3-5
Keywords: Dynamic response; LPM/II computer program; Damping; Computer programs; Earthquake engineering; Beams (Supports); Loads (Forces); Masonry; Reinforcement (Structures); Matrices (Mathematics); Mechanical properties; Equations of motion; Walls; Stiffness; Boundary conditions; Concrete; Displacement; Degrees of freedom; Algorithms; Nonlinear systems; Dynamic structural analysisCheng, F. Y.; Mertz, G. E.
Computer Program for Inelastic Analysis of 3-Dimensional Reinforced-Concrete and Steel Seismic Buildings.
National Science Foundation, Washington, DC., October 1989, 200 p.
Identifying Number(s): CIVIL ENGINEERING STUDY-89-31
Keywords: Dynamic response; Elastic properties; Hysteresis; Earthquake engineering; Earthquake resistant structures; Static loads; Computer programs; Stress analysis; Mechanical properties; Reinforced concrete; Structural analysis; Shear strengthGuidi, G. A.; Shah, H. C.
Computer Programs for Seismic Hazard Analysis, a User Manual (Stanford Seismic Hazard Analysis--STASHA).
National Science Foundation, Washington, DC. Engineering and Applied Science., March 1979, 234 p.
Identifying Number(s): 36
Keywords: Computer programming; Hazards; User needs; Earthquake engineering; Seismic epicenter; IBM 370/168 computers; Earthquakes; STASHA computer programs; Flow charts; Magnitude; Fortran; Intensity; Fortran 4 programming language; Seismology; Seismic risk