NEHRP Clearinghouse

displaying 31 - 40 results in total 188

• Banon, H.; Biggs, J. M.; Irvine, H. M.
  Prediction of Seismic Damage in Reinforced Concrete Frames. Seismic Behavior and Design of Buildings, Report No. 3.
  National Science Foundation, Washington, DC., May 1980, 188 p.
  Identifying Number(s): R80-16
  Keywords: ; Probability theory; Earthquake resistant structures; Framed structures; Stiffness methods; Mathematical models; Buildings; Loads (Forces); Concrete construction; Dynamic structural analysis

• Iliya, R.; Bertero, V. V.
  Effects of Amount and Arrangement of Wall-Panel Reinforcement on Hysteretic Behavior of Reinforced Concrete Walls.
  National Science Foundation, Washington, DC., February 1980, 183 p.
  Identifying Number(s): UCB/EERC-80/04
  Keywords: Seismic design; Earthquake resistant structures; Reinforced concrete; Walls; Buildings; Earthquake engineering; Panels; Loads (Forces); Concrete construction; Earthquakes

• Beason, W. L.
  Failure Prediction Model for Window Glass.
  National Science Foundation, Washington, DC. Engineering and Applied Science., May 1980, 224 p.
  Keywords: Sheet glass; Predictions; Failure; Window glass; Wind pressure; Glass strength; Plate glass; Earthquake engineering; Loads (Forces); Lateral pressure

• Oliva, M. G.
  Shaking Table Testing of a Reinforced Concrete Frame with Biaxial Response.
  National Science Foundation, Washington, DC., October 1980, 207 p.
  Identifying Number(s): UCB/EERC-80/28
  Keywords: Earthquake resistant structures; Reinforced concrete; Columns (Supports); Windows; Dynamic response; Buildings; Earthquake engineering; Yield strength; Loads (Forces); Dynamic structural analysis

• 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

• Rafie, S.; Sharma, M. G.
  Nonlinear Viscoelastic Behavior of a Cohesive Soil under Uniaxial Loading Conditions.
  National Science Foundation, Washington, DC. Engineering and Applied Science., September 1980, 98 p.
  Keywords: Dynamic response; Cohesive soils; Earthquake engineering; Soil properties; Cyclic loads; Computer programs; Rheological properties; Loads (Forces); Creep tests; Earthquakes

• Anderson, R. W.; Lee, Y. C.; Savulian, G.; Barclay, B.; Lee, G.
  Investigation of the Seismic Resistance of Interior Building Partitions, Phase I.
  National Science Foundation, Washington, DC. Engineering and Applied Science., February 1981, 89 p.
  Keywords: Shear walls; Framed structures; Mathematical models; NTISNSFRA; Walls; Loads (Forces); Dynamic response; Finite element analysis; Earthquake engineering; Apartment buildings; Earthquakes; Dynamic structural analysis

• Nakashima, M.; Huang, T.; Lu, L. W.
  Seismic Resistance Characteristics of Reinforced Concrete Beam-Supported Floor Slabs in Building Structures: Contribution of Floor Systems to Earthquake Resistance of Building Structural Frames.
  National Science Foundation, Washington, DC., April 1981, 353 p.
  Identifying Number(s): FEL-422.9
  Keywords: Floors; Earthquake resistant structures; Reinforced concrete; Stiffness methods; Dynamic response; Buildings; Earthquake engineering; Concrete slabs; Elastic properties; Loads (Forces); Dynamic structural analysis

• Rihal, S. S.
  Racking Tests of Non-Structural Building Partitions (The Behavior of Architectural (Non-Structural) Building Components During Earthquakes).
  National Science Foundation, Washington, DC. Engineering and Applied Science., December 1980, 123 p.
  Identifying Number(s): ARCE-R80-1
  Keywords: Seismic design; Earthquake resistant structures; Frames; Buildings; Earthquake engineering; Panels; Wallboard; Loads (Forces); Structural members; Earthquakes

• Haldar, A.; Miller, F. J.
  Probabilistic Evaluation of Damage Potential in Earthquake-Induced Liquefaction in A 3-D Soil Deposit.
  National Science Foundation, Washington, DC., March 1982, 146 p.
  Identifying Number(s): SCEGIT-101-82
  Keywords: Damage assessment; Probability density functions; Risk analysis; Mathematical models; Seismic risk; Liquefaction (Soils); Soil properties; Loads (Forces); Soil mechanics; Earthquakes