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Microzonation for Safer Construction-Research and Application. Proceedings of International Conference (2nd), Held at San Francisco, California on November 26-December 1, 1978. Volume II.
National Science Foundation, Washington, DC. Engineering and Applied Science., December 1978, 516 p.
Keywords: Earthquake engineering; Earthquake resistant structures; Seismic zoning; Meetings; Earthquakes; Structural design; Soil structure interactions; Geological surveys; Soil dynamics; Liquefaction (Soils); Microzonation; Seismology; Geophysics; Geological faults; Seismic riskWhitman, R. V.
Risk-Based Seismic Design Criteria for Lifelines, Seismic Design Decision Analysis.
National Science Foundation, Washington, DC. Engineering and Applied Science., November 1973, 34 p.
Identifying Number(s): INTERNAL STUDY-37
Keywords: Buildings; Risk; Earthquake engineering; Earthquake resistant structures; Risk analysis; Seismic design; Earthquakes; Structural design; Benefit cost analysis; Decision theory; Seismic riskKamil, H.
Development of an Expert System for Earthquake-Resistant Design of Structures. SBIR-Phase 1. Final Report.
National Science Foundation, Washington, DC., July 31, 1987, 87 p.
Identifying Number(s): SAT-370.01
Keywords: Ultimate strength; Buildings; Elastic properties; Earthquake engineering; Earthquake resistant structures; Structural design; Mechanical properties; Soil mechanics; Architecture; Expert systems; Dynamic structural analysisUang, C. M.; Bertero, V. V.
Implications of Recorded Earthquake Ground Motions on Seismic Design of Building Structures.
National Science Foundation, Washington, DC., November 1988, 114 p.
Identifying Number(s): UCB/EERC-88/13
Keywords: ; Earthquake damage; Buildings; Earthquake resistant structures; Earthquake engineering; Earthquakes; Structural design; Structural vibration; Displacement; Mathematical models; Earth movement; Seismic wavesConte, J. P.; Pister, K. S.; Mahin, S. A.
Influence of the Earthquake Ground Motion Process and Structural Properties on Response Characteristics of Simple Structures.
National Science Foundation, Washington, DC., July 1990, 362 p.
Identifying Number(s): UCB/EERC-90/09
Keywords: ; Damage; Response; Reliability; Earthquake resistant structures; Variability; Reinforcing steels; Monte Carlo Method; Earthquakes; Structural design; Stochastic processes; Reinforced concrete; Earth movements; Safety; Mathematical models; Elasticity; Seismic wavesBracci, J. M.; Reinhorn, A. M.; Mander, J. B.
Evaluation of Seismic Retrofit of Reinforced Concrete Frame Structures: Part 2. Experimental Performance and Analytical Study of a Retrofitted Structural Model.
National Science Foundation, Washington, DC.; New York State Science and Technology Foundation, Albany., December 8, 1992, 197 p.
Identifying Number(s): NCEER-92-0031
Keywords: ; Dynamic response; Seismic waves; Ground motion; Earthquake resistant structures; Earthquake engineering; Loads (Forces); Structural design; Reinforced concrete; Seismic effects; Elastic analysis; Concrete structures; Framed structures; Dynamic structural analysisChiu, A. N. L.; Danuatmodjo, A. S.; Hadiwonggo, H.
Proceedings of the U.S.-Asia Conference on Engineering for Mitigating Natural Hazards Damage (2nd). Held in Yogyakarta, Indonesia on June 22-26, 1992. Final Report.
National Science Foundation, Washington, DC.; Agency for International Development, Washington, DC. Office of Foreign Disaster Assistance.; Hawaii Univ. at Manoa, Honolulu.; Indonesia Disaster Management Center, Djakarta., December 1992, 90 p.
Keywords: ; Storms; Wind (Meteorology); Buildings; Tsunamis; Meetings; Earthquakes; Structural design; Avalanches; Landslides; Engineering geology; Disaster planning; Volcanoes; Mitigation; FloodsKariotis, J. C.; Johnson, A. W.
Design of Reinforced Masonry Research Building. Phase 1.
National Science Foundation, Washington, DC., September 1987, 60 p.
Identifying Number(s): REPT-9.1-1
Keywords: ; Buildings; Reinforcement (Structures); Earthquake engineering; Models; Masonry; Loads (Forces); Structural design; Mechanical properties; Test facilities; Walls; Stiffness; Design criteria; Displacement; Experimental designCarden, L. P.; Itani, A. M.; Buckle, I. G.
Seismic Performance of Steel Girder Bridge Superstructures with Ductile End Cross Frames and Seismic Isolators.
Multidisciplinary Center for Earthquake Engineering Research, Buffalo, NY.; California State Dept. of Transportation, Sacramento.; Federal Highway Administration, Washington, DC., January 7, 2008, 282 p.
Identifying Number(s): MCEER-08-0002
Keywords: ; Performance evaluation; Ground motion; Superstructures; Vibration isolators; Bearings; Slabs; Loads (Forces); Earthquake engineering; Seismic design; Structural design; Frames; Buckling; Girder bridgesCheng, F. Y.; Suthiwong, S.
Active Control for Seismic-Resistant Structures on Embedded Foundation in Layered Half-Space.
National Science Foundation, Arlington, VA.; National Center for Earthquake Engineering Research, Buffalo, NY., August 1996, 297 p.
Identifying Number(s): STRUCTURAL SER-96-2
Keywords: ; Dynamic response; Half spaces; Earthquake resistant structures; Earthquake engineering; Structural design; Soil-structure interactions; Foundations (Structures); Vibration damping; Stiffness; Coefficients; Active control; Degrees of freedom; Mathematical models; Algorithms; Excavation; Closed loop systems; Dynamic structural analysis