Analysis of Girder Differential Deflection and Web Gap Stress for Rapid Assessment of Distortional Fatigue in Multi-Girder Steel Bridges

Distortion-induced fatigue cracking in unstiffened web gaps is common in steel bridges. Previous research by the Minnesota Department of Transportation (Mn/DOT) developed methods to predict the peak web gap stress and maximum differential deflection based upon field data and finite element analyses from two skew supported steel bridges with staggered bent-plate and cross-brace diaphragms, respectively. This project aimed to test the applicability of the proposed methods to a varied spectrum of bridges in the Mn/DOT inventory. An entire bridge model (macro-model) and a model encompassing a portion of the bridge surrounding the diaphragm (micro-model) were calibrated for two instrumented bridges. Dual-level analyses using the macro and micro-models were performed to account for the uncertainties of boundary conditions. Parameter studies were conducted on the prototypical variations of the bridge models to define the sensitivity of diaphragm stress responses to typical diaphragm and bridge details. Based on these studies, the coefficient in the web gap stress formula was calibrated and a linear prediction of the coefficient was proposed for bridges with different span lengths. Additionally, the prediction of differential deflection was calibrated to include the influence of crossbrace diaphragms, truck loading configurations and additional sidewalk railings. A simple approximation was also proposed for the influence of web gap lateral deflection on web gap stress.

[1]  John W. Fisher,et al.  DISTORTION-INDUCED FATIGUE CRACKING IN STEEL BRIDGES , 1990 .

[2]  A. Schultz,et al.  Rapid Assessment and Distortional Stresses in Multi-Girder Steel Bridges , 2003 .

[3]  J. M. Stallings,et al.  Effects of Removing Diaphragms from Steel Girder Bridge , 1996 .

[4]  Michael P. Culmo,et al.  Fatigue Evaluations in Steel Bridges Using Field Monitoring Equipment , 1997 .

[5]  Theodore V. Galambos,et al.  Distortion-Induced Fatigue in Multi-Girder Steel Bridges , 2000 .

[6]  John W. Fisher,et al.  Review of field measurements for distortion-induced fatigue cracking in steel bridges , 1987 .

[7]  Brent M. Phares,et al.  RETROFIT METHODS OF DISTORTION CRACKING PROBLEMS IN PLATE GIRDER BRIDGES , 2003 .

[8]  J. M. Stallings,et al.  Laboratory Tests of Bolted Diaphragm-Girder Connections , 1998 .

[9]  John W. Fisher,et al.  FATIGUE CRACKING IN WELDED STEEL BRIDGES , 1990 .

[10]  John W. Fisher Fatigue and Fracture in Steel Bridges: Case Studies , 1984 .

[11]  John W. Fisher,et al.  FATIGUE BEHAVIOR OF VARIABLE LOADED BRIDGE DETAILS NEAR THE FATIGUE LIMIT , 1987 .

[12]  J. Fisher,et al.  Detection and repair of fatigue damage in welded highway bridges , 1979 .

[13]  Peter B. Keating FOCUSING ON FATIGUE , 1994 .

[14]  Yuan Zhao,et al.  Fatigue Behavior and Retrofit Investigation of Distortion-Induced Web Gap Cracking , 2007 .

[15]  J. M. Stallings,et al.  Field Evaluation of Fatigue Cracking in Diaphragm-Girder Connections , 1998 .

[16]  J. M. Stallings,et al.  REMOVAL OF DIAPHRAGMS FROM THREE-SPAN STEEL GIRDER BRIDGE , 1999 .

[17]  F Moses,et al.  Fatigue evaluation procedures for steel bridges , 1987 .