NEHRP Clearinghouse

displaying 1 - 10 results in total 24

  • Cheng, F. Y.; Juang, D. S.
    ODSEWS-2D-II User's Manual. A Computer Program for Optimum Design of 2-Dimensional Steel Structures for Static, Seismic, and Wind Forces.
    National Science Foundation, Washington, DC., December 1985, 139 p.
    Identifying Number(s): CIVIL ENGINEERING STUDY-85-11
    Keywords: Building codes; Steel structures; Earthquake engineering; Computer programs; Static loads; ODSEWS-2D-II computer program; Seismic design; Frames; Wind loads; Bracing

  • Brennan, J. E.; McNamara, R. J.
    Optimum Seismic Protection for New Building Construction in Eastern Metropolitan Areas. Inventory of Buildings for Boston and Cambridge, Internal Study Report Number 6.
    National Science Foundation, Washington, DC. Engineering and Applied Science., April 1972, 11 p.
    Keywords: Floors; Buildings; Earthquake engineering; Boston (Massachusetts); Earthquake resistant structures; Timber construction; Frames; Foundations; Walls; Massachusetts; Concrete construction; Construction materials; Steel construction; Cambridge (Massachusetts); Data bases

  • Carden, 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 bridges

  • Malley, J. O.; Popov, E. P.
    Design Considerations for Shear Links in Eccentrically Braced Frames.
    National Science Foundation, Washington, DC., November 1983, 139 p.
    Identifying Number(s): UCB/EERC-83/24
    Keywords: Deformations (Elastic); Mechanical hystereses; Earthquake engineering; Loads (Forces); Linkages; Frames; Joints (Junctions); Columns (Supports); Shear links; Deformations (Plastics); Bracing

  • Pekcan, G.; Mander, J. B.; Chen, S. S.
    Seismic Retrofit of End-Sway Frames of Steel Deck-Truss Bridges with a Supplemental Tendon System: Experimental and Analytical Investigation.
    Federal Highway Administration, Washington, DC., July 1, 2000, 186 p.
    Identifying Number(s): MCEER-00-0004
    Keywords: Damping (Engineering); Load paths; Steel structures; Computer programs; Earthquake engineering; Dynamic characteristics; Steel bridges; Seismic design; Bridge decks; Frames; Structural tests; Tendons (Materials); Steel deck truss bridges; Nonlinear time history analysis; Drain-2DX program; Model tests; Shaking table tests; Structural analysis; Bracing; Retrofitting

  • Riahi, A.; Row, D. G.; Powell, G. H.
    Three Dimensional Inelastic Frame Elements for the ANSR-I Program.
    National Science Foundation, Washington, DC., August 1978, 75 p.
    Identifying Number(s): UCB/EERC-78/06
    Keywords: Computer programming; Buildings; User needs; Earthquake engineering; Beams (Supports); Earthquakes; Frames; Stiffness; Inelastic behavior; Columns (Supports); Deformation; ANSR-1 computer program; Bending moments

  • Mehrabi, A. B.; Shing, P. B.; Schuller, M. P.; Noland, J. L.
    Performance of Masonry-Infilled R/C Frames under In-Plane Lateral Loads.
    National Science Foundation, Arlington, VA., October 1994, 272 p.
    Identifying Number(s): CU/SR-94/6
    Keywords: Prototypes; Stress strain relations; Earthquake damage; Strain gages; Frames; Shear stresses; Failure modes; Structural failure; Cracks; Algorithms; Infilled panels; Earthquake engineering; Structural components; Reinforced concrete; Displacement; Cyclic loads; Dynamic response; Lateral loads; Cracking (Fracturing); Masonry; Finite element method; Wall loading; Concrete structures; Structural analysis

  • Singhal, A.; Kiremidjian, A. S.
    Method for Earthquake Motion-Damage Relationships with Application to Reinforced Concrete Frames.
    National Center for Earthquake Engineering Research, Buffalo, NY.; National Science Foundation, Arlington, VA., September 10, 1997, 256 p.
    Keywords: ; Dynamic response; Ground motion; Earthquake damage; Damage assessment; Earthquake engineering; Structural components; Fragility; Monte Carlo method; Autoregressive processes; Sensitivity analysis; Frames; Bayes theorem; Reinforced concrete; Soil-structure interactions; Structural failure; Seismic effects; Gaussian processes; Probability; Concrete structures; Mathematical models

  • Filippou, F. C.; Issa, A.
    Nonlinear Analysis of Reinforced Concrete Frames under Cyclic Load Reversals.
    National Science Foundation, Washington, DC., September 1988, 134 p.
    Identifying Number(s): UCB/EERC-88/12
    Keywords: ; Earthquake resistant structures; Structural vibration; Frames; Reinforced concrete; Structural members; Columns (Supports); Mathematical models; Structural analysis; Deformation; Cyclic loads; Nonlinear systems

  • Phan, L. T.; Cheok, G. S.; Todd, D. R.
    Strengthening Methodology for Lightly Reinforced Concrete Frames: Recommended Design Guidelines for Strengthening with Infill Walls.
    May 1995, 62 p.
    Identifying Number(s): NISTIR-5682
    Keywords: Dynamic response; Design analysis; Reinforcement (Structures); Earthquake engineering; Loads (Forces); Structural design; Frames; Reinforced concrete; Structural failure; Infilled walls; Displacement; Design criteria; Concrete structures; Structural analysis; Shear strength