00711796

Component

http://onlinepubs.trb.org...trr/1995/1476/1476-010.pdf

https://scholar.google.co...rage&publication_year=1995

Research was undertaken to assist the Tennessee Department of Transportation (TnDOT) in its analysis of bridges subjected to seismic loading. Specifically, consideration was given to the modeling of the soil-pile interface where friction piles are used in loessial soil. TnDOT uses the SEISAB bridge analysis program, developed by Imbsen and Associates, for the seismic analysis of its bridges. This program was used for all analysis of the research. Current TnDOT modeling practice is to consider that the bridge piers are fixed at the top of the pile cap rather than to assign values of stiffness to springs used to model the resistance of the soil to foundation movement. Elastic spring coefficients, developed using methods presented previously, and the traditional beam-on-elastic-foundation theory are used in the modeling of the bridges. The primary focus of this study is the sensitivity of the calculated axial loads and moments to variations in these spring coefficients. The results from this study underscore the need for more experimental data that could lead to more realistic and reliable values for spring stiffness.

This paper appears in Transportation Research Record No. 1476, Steel, Concrete, and Wood Bridges. Distribution, posting, or copying of this PDF is strictly prohibited without written permission of the Transportation Research Board of the National Academy of Sciences. Unless otherwise indicated, all materials in this PDF are copyrighted by the National Academy of Sciences. Copyright © National Academy of Sciences. All rights reserved

01401386

English

p. 84-97

1995

Transportation Research Record

Figures (14) ; References (15) ; Tables (1)

Axial loads; Bridges; Computer models; Earthquake resistant design; Engineering moments; Interfaces; Loess; Seismicity; Sensitivity; Soil mechanics; Stiffness; Structural models; Support piles

Seismic response; Soil-pile interface

Bridges and other structures; Design; Geotechnology; Highways; I24: Design of Bridges and Retaining Walls

TRIS, TRB

Sep 25 1995 12:00AM

• ANALYSIS OF IN-SERVICE JOINTLESS BRIDGES
• APPLICATIONS OF HIGH-STRENGTH CONCRETE TO LONG-SPAN PRESTRESSED BRIDGE GIRDERS
• BEHAVIOR OF A RED OAK STRESS-LAMINATED BRIDGE IN RHODE ISLAND
• COMPUTATIONALLY EFFICIENT METHOD FOR INCLUSION OF NONPRISMATIC MEMBER PROPERTIES IN A PRACTICAL BRIDGE ANALYSIS PROCEDURE
• CONTROLLED LOAD TESTS ON A FOUR-GIRDER STEEL BRIDGE
• CREEP ANALYSIS OF HYBRID INTEGRAL BRIDGES
• DYNAMIC LOAD SPECTRA FOR GIRDER BRIDGES
• DYNAMIC MODELING OF BRIDGES: OBSERVATIONS FROM FIELD TESTING
• DYNAMIC VEHICLE LOADING ON A SLAB BRIDGE USING MULTIPLE ACTUATORS
• EXPERIMENTAL VERIFICATION OF LOAD AND RESISTANCE FACTOR INELASTIC DESIGN LIMITS
• FIELD EVALUATION OF CONCRETE BRIDGE DECKS REINFORCED WITH EPOXY-COATED STEEL IN INDIANA
• FIELD STUDY OF LONGITUDINAL MOVEMENTS IN COMPOSITE BRIDGES
• GUIDE SPECIFICATION STRENGTH CAPACITY RATING OF EXISTING GIRDER BRIDGES
• IDENTIFICATION OF RAILWAY BRIDGES USING TRAFFIC-INDUCED VIBRATIONS
• ISSUES IN RATING STEEL-STRINGER BRIDGES
• LOAD RATING AND ULTIMATE CAPACITY EVALUATION OF COMPACT STEEL GIRDER BRIDGES
• SEISMIC RETROFITTING OF BRIDGE SUBSTRUCTURES
• SPAN CAPABILITY OF NONCOMPACT COMPOSITE STEEL BRIDGE BEAMS
• SYSTEMATIC EVALUATION OF STRUCTURAL DETERIORATION IN UNDERWATER BRIDGE SUBSTRUCTURES
• TWENTY-FIVE-YEAR PERFORMANCE HISTORY OF INTERLAYER MEMBRANES ON BRIDGE DECKS IN KANSAS