NEHRP Clearinghouse

displaying 121 - 130 results in total 191

  • Technical Council on Lifeline Earthquake Engineering (TCLEE) Pipeline Failure Database (for Microcomputers).
    September 30, 1992,
    Keywords: Pipeline damage; Ground motion; Pipes (Tubes); Loma Prieta earthquake; Risk assessment; Pipelines; Earthquakes; Soil-structure interactions; Seismic effects; Piping systems; Software; Data bases; Diskettes

  • Blondet, M.; Mayes, R. L.
    Transverse Response of Clay Masonry Walls Subjected to Strong Motion Earthquakes. Summary of Dynamic Test Results. Volume 3. Walls No. 8, 9, 10, and 11 (Group 2).
    National Science Foundation, Washington, DC., April 1991, 309 p.
    Identifying Number(s): REPT-3.2(B2)-VOL-3
    Keywords: ; Experimental data; Walls; Earth movements; Clays; Construction joints; Earthquake damage; Reinforcement (Structures); Earthquakes; Moments; Bending; Earthquake engineering; Mechanical properties; Deflection; Seismic effects; Displacement; Bricks; Dynamic response; Dynamic structural analysis; Dynamic tests; Loads (Forces); Masonry

  • Blondet, M.; Mayes, R. L.
    Transverse Response of Clay Masonry Walls Subjected to Strong Motion Earthquakes. Summary of Dynamic Test Results. Volume 4. Walls No. 3, 5 and 7 (Group 3).
    National Science Foundation, Washington, DC., April 1991, 255 p.
    Identifying Number(s): REPT-3.2(B2)-VOL-4
    Keywords: ; Experimental data; Walls; Earth movements; Clays; Construction joints; Earthquake damage; Reinforcement (Structures); Earthquakes; Moments; Bending; Earthquake engineering; Mechanical properties; Deflection; Seismic effects; Displacement; Bricks; Dynamic response; Dynamic structural analysis; Dynamic tests; Loads (Forces); Masonry

  • Kariotis, J. C.; Waqfi, O. M.
    Trial Designs Made in Accordance with Tentative Limit States Design Standards for Reinforced Masonry Buildings.
    National Science Foundation, Washington, DC., February 1992, 242 p.
    Identifying Number(s): REPT-9.1-2
    Keywords: ; Earthquake damage; Damping; Buildings; Reinforcement (Structures); Earthquake engineering; Loads (Forces); Masonry; Structural design; Mechanical properties; Walls; Stiffness; Structural members; Moments; Displacement; Earth movements; Seismic effects; Design standards; Mathematical models; Deformation

  • Bertero, V. V.; Borcherdt, R.; Clark, P. W.; Dreger, D.; Filippou, F.; Foutch, D.; Gee, L.; Higashino, M.; Kono, S.; Lu, L. W.
    Seismological and Engineering Aspects of the 1995 Hyogoken-Nanbu (Kobe) Earthquake.
    National Science Foundation, Arlington, VA., November 1995, 268 p.
    Identifying Number(s): UCB/EERC-95/10
    Keywords: Damage assessment; Soil-structure interactions; Hyogokehn-Nanbu Earthquake; Earthquake damage; Steel structures; Rock mechanics; Wooden structures; Soil mechanics; Tectonics; Liquefaction; Ground motion; Geodetics; Reinforced concrete; Seismic effects; Geotechnical engineering; Honshu; Dynamic structural analysis; Dynamic response; Kobe (Japan); Seismic waves; Highway bridges; Structural vibration

  • Raufaste, N. J.
    Wind and Seismic Effects. Proceedings of the U.S.-Japan Cooperative Program in Natural Resources Panel on Wind and Seismic Effects (26th). Held in Gaithersburg, Maryland on May 17-20, 1994.
    September 1994, 694 p.
    Identifying Number(s): NIST/SP-871
    Keywords: Tsunamis; Dams; Storm surges; Bridges; Wind loads; Earthquakes; Highway engineering; Design criteria; Design standards; Retrofitting; Earthquake engineering; Meetings; Foundations (Structures); Research programs; Seismic effects; Dynamic structural analysis; Wind engineering; Earthquake resistant structures; Structural vibration; Structural engineering; Wind effects; Wind pressure; Dynamic loads

  • Wang, Y.; O'Rourke, T. D.
    Seismic Performance Evaluation of Water Supply Systems.
    Multidisciplinary Center for Earthquake Engineering Research, Buffalo, NY.; National Science Foundation, Washington, DC., May 5, 2008, 398 p.
    Identifying Number(s): MCEER-08-0015
    Keywords: ; Public utilities; Hazards; Damage assessment; Gas pipelines; Earthquake damage; Economic impacts; Performance evaluation; Water pipelines; Seismic effects; Methodology; Water supplies

  • Hamburger, R. O.; Krawinkler, H.; Malley, J. O.; Adan, S. M.
    Seismic Design of Steel Special Moment Frames: A Guide for Practicing Engineers. NEHRP Seismic Design Technical Brief No. 2.
    National Inst. of Standards and Technology (NEL), Gaithersburg, MD., June 2009, 37 p.
    Identifying Number(s): NIST-GCR-09-917-3
    Keywords: ; Ground motion; Buildings; Building codes; Earthquake engineering; Joints; Requirements; Earthquake resistance structure; Steels; Seismic effects; Columns (Supports); Beams; Construction; Recommendations; Design

  • Kaba, S. A.; Mahin, S. A.
    Refined Modelling of Reinforced Concrete Columns for Seismic Analysis.
    National Science Foundation, Washington, DC., April 1984, 112 p.
    Identifying Number(s): UCB/EERC-84/03
    Keywords: Earthquake resistant structures; Loads (Forces); Mechanical hysteresis; Reinforced concrete; Steels; Sheer stresses; Seismic effects; Structural members; Strength; Stiffness; Columns (Supports); Model tests; Axial stress; Framed structures; Bending

  • O'Rourke, M. J.; Liu, X.
    Response of Buried Pipelines Subject to Earthquake Effects.
    January 1999, 276 p.
    Identifying Number(s): ['MCEER-99-MN03', 'ISBN-0-9656682-3-1']
    Keywords: Hazards; Geologic faults; Underground structures; Structural response; Body waves; Earthquake damage; Pipelines; Soil structure interactions; Failure modes; Lifelines; Liquefaction; Ground motion; Buried objects; Seismic effects; Attenuation; Seismic surface waves; Dynamic structural analysis; Seismic waves; Landslides; Wave propagation; Mitigation; PGD (Permanent Ground Deformation)