NEHRP Clearinghouse

displaying 1 - 10 results in total 10

• Wang, L. R. L.; Lavery, W. T.
  Engineering Profile of Latham Water District, Albany, New York (Seismic Vulnerability, Behavior and Design of Underground Piping Systems).
  National Science Foundation, Washington, DC. Applied Science and Research Applications., April 1978, 34 p.
  Keywords: Water wells; Seismic design; Vulnerability; Water pipes; Earthquake resistant structures; Subsurface investigations; Soil classification; Seismic risk; Albany (New York); New York; Ground motion; Earthquake engineering; Water supplies; Well logging; Latham Water District; Earthquakes

• O'Rourke, M. J.; Solla, E.
  Seismic Risk Analysis of Latham Water District, Albany, New York. (Seismic Vulnerability, Behavior and Design of Underground Piping Systems).
  National Science Foundation, Washington, DC. Applied Science and Research Applications., June 1977, 65 p.
  Keywords: Earthquake resistant structures; Water pipes; Buried pipelines; Risk analysis; Seismic risk; Subsurface structures; Structural design; Albany County (New York); Sewer pipes; Earthquake engineering; New York; Latham Water District; Pipelines; Earthquakes; Dynamic structural analysis

• Pikul, R. R.; Wang, L. R. L.; O'Rourke, M. J.
  Seismic Vulnerability of the Latham Water Distribution System. A Case Study (Seismic Vulnerability, Behavior and Design of Underground Piping Systems).
  National Science Foundation, Washington, DC. Applied Science and Research Applications., September 1978, 42 p.
  Keywords: Earthquake resistant structures; Water pipes; Buried pipelines; Subsurface structures; Seismic risk; Structural design; Albany County (New York); Sewer pipes; Earthquake engineering; New York; Latham Water District; Pipelines; Earthquakes; Dynamic structural analysis

• Wang, L. R. L.; O'Rourke, M. J.; Pikul, R. R.
  Seismic Vulnerability, Behavior and Design of Buried Pipelines, Final Report of Phase I Study. (Seismic Vulnerability, Behavior and Design of Underground Piping Systems).
  National Science Foundation, Washington, DC. Engineering and Applied Science., March 1979, 148 p.
  Keywords: Pipe joints; Seismic waves; California; Buried pipelines; Risk analysis; Seismic risk; Albany (New York); Subsurface structures; Earth movements; Ground motion; Earthquake engineering; San Fernando earthquake; New York; Piping systems; Pipelines; Earthquakes; Dynamic structural analysis

• Bruneau, M.; Whittaker, A.; Reinhorn, A.
  Engineering and Organizational Issues Related to The World Trade Center Terrorist Attack. Volume 1: Overview of Damage to Buildings near Ground Zero.
  March 2002, 46 p.
  Keywords: Analytical methods; Damage assessment; Debris; Ground Zero; Cost effectiveness; Terrorist attacks; New York; Buildings; Earthquake engineering; Attack; World Trade Center; Terrorism; Manhattan (New York); Multidisciplinary teams; Structural analysis

• Berman, J.; Warn, G.; Whittaker, A.; Bruneau, M.
  Engineering and Organizational Issues Related to The World Trade Center Terrorist Attack. Volume 2: Reconnaissance and Preliminary Assessment of a Damaged Building Near Ground Zero.
  April 2002, 40 p.
  Keywords: Nonlinear analysis; Damage assessment; Collapse; Debris; Ground Zero; New York; Research; Buildings; Earthquake engineering; Linear analysis; Attack; Reconnaissance; World Trade Center; Infrastructure; Terrorism; Multidisciplinary teams; Gravity loads; Structural analysis

• Garcia, D. L.
  Student Research and Accomplishments: 2001-2002, Multidisciplinary Center for Earthquake Engineering Research.
  National Science Foundation, Arlington, VA.; Federal Highway Administration, Washington, DC., October 2002, 154 p.
  Identifying Number(s): MCEER-02-SP09
  Keywords: ; Seismic design; Emergency preparedness; Research projects; Retrofitting; Damping; Shake tables; New York; Buildings; Earthquake engineering; Multidisciplinary research; Hospitals; Taiwan

• Lee, G. C.; Rzhevsky, V.; Tong, M.; Chen, S.
  Engineering and Organizational Issues Related to the World Trade Center Terrorist Attack. Volume 4: From the WTC Tragedy to the Development of Disaster Engineering for Landmark Buildings: An Extension of the Performance-Based Earthquake Engineering Approach.
  September 2003, 110 p.
  Identifying Number(s): MCEER-03-SP04
  Keywords: Thermal properties; Loadings; Ground zero; Sructural vibration; New York; Buildings; Earthquake engineering; Dynamic responses; Explosion; Damage assessments; Multi-hazards; World Trade Center; Fire; Mechanical properties; Terrorism; Collision; Structural analysis

• Tantala, M.; Nordenson, G.; Deodatis, G.; Jacob, K.; Swiren, B.
  Earthquake Risks and Mitigation in the New York, New Jersey, and Connecticut Region. New York City Area Consortium for Earthquake Loss Mitigation, 1999-2003.
  January 2003, 56 p.
  Keywords: ; Loss mitigation; Seismic design; Statistical analysis; New Jersey; Mathematical models; New York; Risk; Connecticut; Earthquakes; Financial loss

• Budhu, M.; Vijayakumar, V.; Giese, R. F.; Baumgras, L.
  Liquefaction Potential for New York State: A Preliminary Report on Sites in Manhattan and Buffalo.
  National Science Foundation, Washington, DC. Div. of Industrial Science and Technological Innovation., August 31, 1987, 46 p.
  Identifying Number(s): NCEER-87-0009
  Keywords: Soils; New York City (New York); Buffalo (New York); Boreholes; Seismology; New York; Ground water; Liquefaction; Soil dynamics; Penetration tests; Earthquakes