NEHRP Clearinghouse
displaying 1 - 10 results in total 30
Abrahamson, G. R.; Lindberg, H. E.; Bruce, J. R.
Simulation of Strong Earthquake Motion with Explosive Line Source Arrays.
National Science Foundation, Washington, D.C. Research Applied to National Needs., October 1977, 52 p.
Keywords: Earthquake resistant structures; Explosive charges; Seismic waves; Earth movements; Ground motion; Earthquake engineering; Simulation; EarthquakesOtani, S.; Sozen, M. A.
Simulated Earthquake Tests of R/C Frames.
National Science Foundation, Washington, DC. Engineering and Applied Science., January 1976, 31 p.
Keywords: Earthquake resistant structures; Reinforced concrete; Frames; Structural design; Dynamic response; Dynamic tests; Earthquake engineering; Simulation; Linear systems; Earthquakes; Dynamic structural analysisBruce, J. R.; Lindberg, H. E.; Abrahamson, G. R.
Simulation of Strong Earthquake Motion with Contained-Explosive Line Source Arrays, Single-Source and Array Tests at Camp Parks.
National Science Foundation, Washington, DC. Engineering and Applied Science., March 1979, 75 p.
Keywords: Seismic design; Earthquake resistant structures; Explosive charges; Seismic waves; Earth movements; Earthquake engineering; Simulation; Soil structure interactions; EarthquakesBruce, J. R.; Lindberg, H. E.; Abrahamson, G. R.
Simulation of Strong Earthquake Motion with Contained-Explosion Line Source Arrays, Single-Source and Array Tests at Camp Parks.
National Science Foundation, Washington, DC. Div. of Problem-Focused Research Applications., December 1979, 155 p.
Keywords: Seismic design; Earthquake resistant structures; Explosive charges; Arrays; Earth movements; Finite element analysis; Ground motion; Simulation; Soil properties; Soil structure interactions; Dynamic structural analysisAgrawal, P. N.; Bruce, J. R.
Simulation of Strong Earthquake Motion with Contained-Explosion Line Source Arrays, Report on Task 6: Feasibility of Earth Dam Testing.
National Science Foundation, Washington, DC. Office of Planning and Resources Management., September 1980, 50 p.
Keywords: Earthquake resistant structures; Explosive charges; Seismic waves; Earth movements; Dynamic tests; Dynamic response; Ground motion; Earthquake engineering; Simulation; Earth dams; Soil structure interactions; EarthquakesHiggins, C. J.; Johnson, R. L.; Triandafilidis, G. E.
The Simulation of Earthquake-Like Ground Motions with High Explosives.
National Science Foundation, Washington, DC. Office of Planning and Resources Management., July 1978, 590 p.
Identifying Number(s): CE-45(78)NSF-507-1
Keywords: Cost analysis; Explosive charges; Seismic waves; Earth movements; NTISNSFRA; Dynamic response; Ground motion; Simulation; Explosion effects; Energy transfer; EarthquakesWagner, M. T.; Bertero, V. V.
Mechanical Behavior of Shear Wall Vertical Boundary Members: An Experimental Investigation.
National Science Foundation, Washington, DC., October 1982, 78 p.
Identifying Number(s): UCB/EERC-82/18
Keywords: Earthquake resistant structures; Reinforced concrete; Test facilities; Walls; Earthquake engineering; Theses; Simulation; Loads (Forces)Safford, F. B.; Masri, S. F.
Validation of Pulse Techniques for the Simulation of Earthquake Motions in Civil Structures.
National Science Foundation, Washington, DC., May 1983, 112 p.
Identifying Number(s): R-7824-5489
Keywords: Algorithms; Dynamic response; Buildings; Earthquake engineering; Ground motion; Pulse generators; Gas generators; Simulation; EarthquakesSteedman, D. W.; Higgins, C. J.
Prediction of Free Field Motions in Large-Scale Earthquake Simulations Using Explosives.
National Science Foundation, Washington, DC., October 1982, 132 p.
Keywords: Explosives; Computer applications; Ground motion; Earthquake engineering; Dynamic response; Simulation; Soil properties; Finite difference theory; EarthquakesShing, P. S. B.; Mahin, S. A.
Pseudodynamic Test Method for Seismic Performance Evaluation: Theory and Implementation.
National Science Foundation, Washington, DC., January 1984, 172 p.
Identifying Number(s): UCB/EERC-84/01
Keywords: Computers; Control equipment; Computerized simulation; Numerical integration; Earthquake engineering; Structural models; Software; Simulation; Dynamic structural analysis