NEHRP Clearinghouse
displaying 21 - 27 results in total 27
Cheng, F. Y.; Mertz, G. E.
Computer Program for Inelastic Analysis of 3-Dimensional Reinforced-Concrete and Steel Seismic Buildings.
National Science Foundation, Washington, DC., October 1989, 200 p.
Identifying Number(s): CIVIL ENGINEERING STUDY-89-31
Keywords: Earthquake resistant structures; Static loads; Reinforced concrete; Dynamic response; Earthquake engineering; Shear strength; Hysteresis; Elastic properties; Computer programs; Stress analysis; Mechanical properties; Structural analysisCheng, F. Y.; Chang, C. C.
Safety-Based Optimum Design of Nondeterministic Structures Subjected to Various Types of Seismic Loads.
National Science Foundation, Washington, DC., June 1988, 342 p.
Identifying Number(s): STRUCTURAL SER-88-6-1
Keywords: Cost analysis; Earthquake resistant structures; White noise; Static loads; Steel structures; Vibration; Safety engineering; Structural design; Dynamic response; Graphs (Charts); Earthquake engineering; Comparisons; Loads (Forces)Reinhorn, A. M.; Madan, A.; Valles, R. E.; Reichmann, Y.; Mander, J. B.
Modeling of Masonry Infill Panels for Structural Analysis.
National Science Foundation, Arlington, VA.; New York State Science and Technology Foundation, Albany., December 8, 1995, 86 p.
Identifying Number(s): NCEER-95-0018
Keywords: ; Nonlinear analysis; Seismic waves; Hysteresis; Structural members; Mathematical models; Cyclic loads; Seismic loads; Structural vibration; Static loads; Earthquake damage; Concrete structures; Stiffness; Seismic effects; Cracking (Fracturing); Dynamic response; Ground motion; Mechanical properties; Dynamic structural analysisCheng, F. Y.; Ger, J. F.; Li, D.; Yang, J. S.
General Purpose Program for Inelastic Analysis of RC and Steel Building Systems for 3D Static and Dynamic Loads and Seismic Excitations. INRESB-3D-SUPII. Program Listing for Supercomputer.
National Science Foundation, Arlington, VA., August 1996, 121 p.
Identifying Number(s): STRUCTURAL SER-96-4
Keywords: ; Seismic design; FORTRAN; Dynamic loads; Static loads; Steel structures; Buildings; Earthquake engineering; Subroutines; Computer programsCheng, F. Y.; Ger, J. F.; Li, D.; Yang, J. S.
General Purpose Program for Inelastic Analysis of RC and Steel Building Systems for 3D Static and Dynamic Loads and Seismic Excitations. INRESB-3D-SUPII. Program Listing for PC.
National Science Foundation, Arlington, VA., August 1996, 115 p.
Identifying Number(s): STRUCTURAL SER-96-5
Keywords: ; Seismic design; FORTRAN; Dynamic loads; Static loads; Steel structures; Earthquake engineering; Subroutines; Computer programsEllingwood, B.; Galambos, T. V.; MacGregor, J. G.; Cornell, C. A.
Development of a Probability Based Load Criterion for American National Standard A58, Building Code Requirements for Minimum Design Loads in Buildings and Other Structures.
June 1980, 232 p.
Identifying Number(s): NBS-SP-577
Keywords: Dynamic loads; Static loads; Probability density functions; Design; Specifications; Construction materials; UNIVAC-1108 computers; Aerodynamic loads; Computer programs; Fortran; Building codesScribner, C. F.; Leyendecker, E. V.
Plan for a Design Study for a National Earthquake Engineering Experimental Facility.
Federal Emergency Management Agency, Washington, DC., October 1986, 28 p.
Identifying Number(s): NBSIR-86/3453
Keywords: US NRC; Earthquake resistant structures; Stress; Static loads; Design; Standards; Earth movements; Engineering; Rock mechanics; Building codes; Earthquakes