NEHRP Clearinghouse

displaying 471 - 480 results in total 1394

• Nunn, R. O.
  Planar Mechanics of Fully Grouted Concrete Masonry.
  National Science Foundation, Washington, DC. Engineering and Applied Science., May 1980, 127 p.
  Identifying Number(s): UCSD/AMES/TR-80-001
  Keywords: Masonry; Grout; Reinforced concrete; Tensile properties; Mechanical hysteresis; Earthquake engineering; Concrete structures; Elastic properties; Concrete construction; Earthquakes

• Woodward, K. A.; Jirsa, J. O.
  Behavior Classification of Short Reinforced Concrete Columns Subjected to Cyclic Deformations.
  National Science Foundation, Washington, DC. Engineering and Applied Science., July 1980, 357 p.
  Identifying Number(s): PMFSEL-80-2
  Keywords: Earthquake resistant structures; Reinforced concrete; Columns (Supports); Mechanical hysteresis; Earthquake engineering; Cyclic loads; Concrete construction; Earthquakes

• Kelly, J. M.; Beucke, K. E.; Skinner, M. S.
  Experimental Testing of a Friction Damped Aseismic Base Isolation System with Fail-Safe Characteristics.
  National Science Foundation, Washington, DC., July 1980, 62 p.
  Identifying Number(s): UCB/EERC-80/18
  Keywords: Elastomers; Earthquake resistant structures; Sliding friction; Mechanical hysteresis; Structural design; Dynamic response; Buildings; Earthquake engineering; Coulomb damping; Foundations; Bearings

• Furgerson, R. L.
  Seismic Stability of Block Structures.
  National Science Foundation, Washington, DC. Engineering and Applied Science., May 1980, 104 p.
  Identifying Number(s): UCSD/AMES/TR-80/002
  Keywords: Earthquake resistant structures; Mathematical models; Walls; Dynamic response; Buildings; Earthquake engineering; Concrete structures; Concrete slabs; Shear stress; Coulomb friction

• A-Grivas, D.; Howland, J. D.
  Probabilistic Seismic Stability Analysis of Earth Slopes.
  National Science Foundation, Washington, DC. Engineering and Applied Science., December 1980, 131 p.
  Identifying Number(s): CE-80-2
  Keywords: Probability theory; Probability density functions; Mathematical models; Earthquake engineering; Soil dynamics; Soil properties; Slopes; Earthquakes

• Guidi, G. A.; Shah, H. C.
  Computer Programs for Seismic Hazard Analysis, a User Manual (Stanford Seismic Hazard Analysis--STASHA).
  National Science Foundation, Washington, DC. Engineering and Applied Science., March 1979, 234 p.
  Identifying Number(s): 36
  Keywords: Intensity; User needs; Flow charts; Seismic risk; STASHA computer programs; Seismic epicenter; Magnitude; Seismology; Earthquake engineering; Fortran 4 programming language; IBM 370/168 computers; Hazards; Computer programming; Fortran; Earthquakes

• Hasselman, T. K.; Eguchi, R. T.; Wiggins, J. H.
  Assessment of Damageability for Existing Buildings in a Natural Hazards Environment, Volume I: Methodology.
  National Science Foundation, Washington, DC. Engineering and Applied Science., September 1980, 197 p.
  Identifying Number(s): TR-80-1332-1
  Keywords: Damage assessment; Predictions; Dynamic loads; Wind pressure; User needs; Mathematical models; Buildings; Earthquake engineering; DAMAGE computer program; Natural hazards; Earthquakes; Dynamic structural analysis

• Hasselman, T. K.; Chen, S. H.; Eguchi, R. T.; Wiggins, J. H.
  Assessment of Damageability for Existing Buildings in a Natural Hazards Environment, Volume II: DAMAGE Computer Program Users Manual.
  National Science Foundation, Washington, DC. Engineering and Applied Science., September 1980, 164 p.
  Identifying Number(s): TR-80-1332-2
  Keywords: Damage assessment; Predictions; Dynamic loads; Wind pressure; User needs; Buildings; Earthquake engineering; DAMAGE computer program; Computer programs; Fortran; Natural hazards; Earthquakes; Dynamic structural analysis

• O'Rourke, T. D.; Trautmann, C. H.
  Analytical Modeling of Buried Pipeline Response to Permanent Earthquake Displacements.
  National Science Foundation, Washington, DC. Engineering and Applied Science., July 1980, 102 p.
  Identifying Number(s): GER-80-4
  Keywords: Pipe joints; Damage assessment; Seismic waves; Subsurface structures; Dynamic response; Ground motion; Earthquake engineering; Finite element analysis; Soil structure interactions; Pipelines; Flexible couplings; Earthquakes

• Al-Tayyib, A. H. J.
  Geometrically Nonlinear Analysis of Rectangular Glass Plates by the Finite Element Method.
  National Science Foundation, Washington, DC. Engineering and Applied Science., May 1980, 161 p.
  Identifying Number(s): TTU/IDR-50D
  Keywords: Sheet glass; Wind pressure; Window glass; Glass strength; Mathematical models; Plate glass; Finite element analysis; Earthquake engineering; Loads (Forces); Lateral pressure