NEHRP Clearinghouse

displaying 11 - 20 results in total 28

  • Carter, D. P.; Seed, H. B.
    Liquefaction Potential of Sand Deposits under Low Levels of Excitation.
    National Science Foundation, Washington, DC., August 1988, 335 p.
    Identifying Number(s): UCB/EERC-88/11
    Keywords: ; Soil compacting; Seismic waves; Vibration; Blasting; Shear stress; Earthquakes; Liquefaction; Soil pressure; Sands; Soil mechanics; Frequencies

  • Tsai, K. C.; Popov, E. P.
    Steel Beam-Column Joints in Seismic Moment Resisting Frames.
    National Science Foundation, Washington, DC.; American Iron and Steel Inst., Washington, DC., November 1988, 452 p.
    Identifying Number(s): UCB/EERC-88/19
    Keywords: ; Fracturing; Reinforcing; Earthquake resistant structures; Beams (Supports); Moments; Columns (Supports); Frames; Loads (Forces); Dynamic response; Joints (Junctions); Earthquake engineering; Shear stress; Structural steels; Stiffness; Nonlinear systems; Structural members; Fractures (Materials)

  • Graesser, E. J.; Cozzarelli, F. A.
    Multidimensional Hysteretic Model for Plastically Deforming Metals in Energy Absorbing Devices.
    National Science Foundation, Washington, DC., April 9, 1991, 61 p.
    Identifying Number(s): NCEER-91-0006
    Keywords: Shape memory alloys; Earthquake resistant structures; Dynamic loads; Structural vibration; Seismic waves; Mathematical models; Shear properties; Earthquake engineering; Ozdemir model; Energy dissipation; Vibration damping; Shear stress; Hysteresis; Vibration isolators; Plastic analysis; Vibration control

  • Hwang, H. H. M.; Lee, C. S.
    Probabilistic Evaluation of Liquefaction Potential.
    November 25, 1991, 87 p.
    Keywords: Probability theory; Stochastic analysis; Statistical analysis; Seismic waves; Memphis County (Tennessee); Dynamic response; Earthquake engineering; Shear stress; Liquefaction; Soil pressure; Nonlinear systems; Soil mechanics; Earthquakes

  • Engelhardt, M. D.; Popov, E. P.
    Behavior of Long Links in Eccentrically Braced Frames.
    National Science Foundation, Washington, DC.; American Iron and Steel Inst., Washington, DC., January 1989, 415 p.
    Identifying Number(s): UCB/EERC-89/01
    Keywords: ; Seismic design; Earthquake resistant structures; Dynamic loads; Beams (Supports); Structural vibration; Steel structures; Deformation; Test facilities; Frames; Dynamic response; Earthquake engineering; Shear stress; Bending moments; Cyclic loads; Plastic analysis; Loads (Forces); Structural members

  • Kelly, J. M.; Chalhoub, M. S.
    Earthquake Simulator Testing of a Combined Sliding Bearing and Rubber Bearing Isolation System.
    National Science Foundation, Washington, DC., December 1990, 186 p.
    Identifying Number(s): UCB/EERC-87/04
    Keywords: ; Dynamic loads; Seismic waves; Steel structures; Shear stress; Displacement; Hysteresis; Bearings; Rubber; Vibration damping; Vibration isolators; Earthquake resistant structures; Structural vibration; Tetrafluoroethylene resins; Sliding; Simulators; Earthquake resistance; Model tests; Dynamic response; Earthquake engineering

  • Merryman, K. M.; Leiva, G.; Antrobus, N.; Klingner, R. E.
    In-Plane Seismic Resistance of Two-Story Concrete Masonry Coupled Shear Walls.
    National Science Foundation, Washington, DC., May 1990, 190 p.
    Identifying Number(s): REPT-3.1(C)-1
    Keywords: ; Grout; Earthquake resistance buildings; Deformation; Shear stress; Reinforced concretes; Performance evaluation; Diagrams; Masonry; Reinforcing steels; Concrete blocks; Design criteria; Compressive strength; Floors; Photographs; Precast concrete; Roofs; Test methods; Walls; Joints (Junctions); Construction

  • Leiva, G.; Klingner, R. E.
    In-Plane Seismic Resistance of Two-Story Concrete Masonry Shear Walls with Openings.
    National Science Foundation, Washington, DC., August 1991, 319 p.
    Identifying Number(s): REPT-3.1(C)-2
    Keywords: Grout; Reinforced concrete; Deformation; Shear stress; Loads (Forces); Structural members; Axial stress; Mathematical models; Cantilever walls; Masonry; Instrumentation; Strain measurement; Computer programming; Coupled walls; Earthquake resistant buildings; Design criteria; Failure; Test methods; Walls; Flexural strength; Construction

  • Al-Hussaini, T. M.; Zayas, V. A.; Constantinou, M. C.
    Seismic Isolation of Multi-Story Frame Structures Using Spherical Sliding Isolation Systems.
    National Center for Earthquake Engineering Research, Buffalo, NY.; National Science Foundation, Arlington, VA.; New York State Science and Technology Foundation, Albany., March 17, 1994, 176 p.
    Keywords: ; Shakers; Seismic design; Framed structures; Buildings; Earthquake engineering; Shear stress; Vibration isolators; Tests; Fatigue (Materials)

  • Cheng, F. Y.; Yang, J. S.
    Hysteresis Rules and Design Parameter Assessment of RC Low-Rise Shear Walls and Buildings with Openings.
    National Science Foundation, Arlington, VA., August 1996, 378 p.
    Identifying Number(s): STRUCTURAL SER-96-1
    Keywords: Cracking (Fracturing); Shear walls; California; Walls; Buildings; Loma Prieta earthquake; Earthquake engineering; Shear stress; Hysteresis; Building codes; Ductility; Dynamic structural analysis