THREE CASE HISTORIES OF CRACKING PROBLEMS …

1 AD- a252 8211111111 llil u 111 pill~ 111_UIL -EN -oo00 CIVIL ENGINEERING STUDIES (O7)STRUCTURAL RESEARCH SERIES NO. 569 ISSN: 0069-4274 THREE case HISTORIES OF CRACKING PROBLEMSASSOCIATED WITHSTEEL BRIDGE FLOOR BEAMS--T hhsD TICIThis document ha' been approved ELECTEi,tri utio4 is unlimitecL U 1 92L JUL 15~ 1992 IIByW. H. WalkerM. D. HolbrookandP A. CassityA Report on a Research ProjectSponsored by theSTATE OF ILLINOISDEPARTMENT OF TRANSPORTATION and theU. S. DEPARTMENT OF TRANSPORTATIONF ederal Highway AdministrationDEPARTMENT OF CIVIL ENGINEERINGUNIVERSITY OF ILLINOIS ATURBANA-CHAMPAIGNURBANA, ILLINOISJUNE 199292-18677 TECHNICAL REPORT STANDARO TITLE PAGE1. Report No. 1. Government Accession No. 3. Reciplont's Ceflog Title and Subtitle S.

2 Report DoteThree case HISTORIES of CRACKING PROBLEMS June 1992 Associated With Steel Bridge Floor Beams 6. Organieain Code7. Autho,(s) 8. Performing Orgenization Report H. Walker, M. D. Holbrook, and P. A. Cassity UILU-ENG-92-20079. Performing Orgn iation HNomo end Address 10. Worb Unit of Illinois at Urbana-ChampaignDepartment of Civil Engineering 11. C et Grnt North Mathews AvenueUrbana, Illinois 61801-2352 IHR-31213. Type of Report end Period Covered12. Sponsoring Agency Nam. end Addres- FINAL REPORTI llinois Department of Transportation 7/88 through 12/91 Bureau of Materials and Physical. ResearchSpringfield, Illinois 14. Sponsoring Agency CodeI5. Supplementary Notes16, AbstractFloor system CRACKING PROBLEMS , the focus of the present study, occur in both structures of recent construction and inolder bridges which have been in service for many years.

3 The present study has risen out of specific cases of floorsystem cracks which are not immediately detrimental to the structural integrity of the floor system and which do notat the outset seem related to a usual design basis load effects. The cases forming the central focus of this report are:(1) The 1-474 Shade-Lohmann Bridge over the Illinois River south of Peoria, (2) The 1-74 Bridge over the VermilionRiver at Danville, and (3) The 1-74 Bridge over the Sangamon near Mahomet in Champaign following is seen: case 1: CRACKING due to forces not associated with vertical vehicle loading. That is, evidenceis strong that CRACKING arises from longitudinal load transmitted through the out of plane flexure of the floor beam webin the segment between the connection clip angles and the flange at either end.

4 Calculations show that a very modestinduced longitudinal deformation is associated with substantial local stresses at the web to flange junction which is thesite of the CRACKING . case 2: Fatigue failure of a detail with adverse geometry but with forces induced by vehicle loadswhich clearly account for the damage. A repair detail to reduce member forces has been suggested and is 3: The development of a fatigue crack at a cope detail associate with a reasonable stress state for the damageobserved, but with poor correlation with a limited controlled vehicle test and predictions of bridge behavior using agrid model. Additional field studies with more extensive instrumentation and a more comprehensive analytical modelis needed to resolve uncertainties in this Key Werd@ 16.

5 Distebuteon StatementBridges, Floorbeams, CRACKING , Release UnlimitedFatigue and Fracture19. Security Ctessif. (of this report 20. Security Clesf. (of this ieo) 21. No. of Paoes 22. PriceUnclassified Unclassified 61 Form DOT F case HISTORIES OF CRACKING PROBLEMSASSOCIATED WITHSTEEL BRIDGE FLOOR BEAMSbyW. H. Walker, M. D. Holbrook and P. A. CassityIssued as the Final Report onProject IHR-312 Accesion ForPROBLEMS WITH BRIDGE FLOOR BEAMS NTIS CRA&I _DTIC TAEconducted by the Unannounced Lconduted b theJustificationDepartment of Civil EngineeringEngineering Experiment Station .. *b -*io--University of Illinois at Urbana-Champaign Codesin cooperation with Dist ASipij ac)1lorSTATE OF ILLINOISDEPARTMENT OF TRANSPORTATION 1A-land theU. S.

6 DEPARTMENT OF TRANSPORTATIONF ederal Highway AdministrationUrbana, IllinoisJune 1992 ACKNOWLEDGEMENTThis report was prepared as part of the Illinois Cooperative Highway Research Program,Project IHR-312, Research on PROBLEMS Associated with Bridge Floor Beams, by the Depart-ment of Civil Engineering, in the Engineering Experiment Station, University of Illinois at Ur-bana-Champaign, in cooperation with the Illinois Department of Transportation and the U. of Transportation, Federal Highway contents of this report reflect the views of the authors who are responsible for thefacts and the accuracy of the data presented herein. The contents do not necessarily reflect theofficial views or policies of the Illinois Department of Transportation or the Federal HighwayAdministration.

7 This report does not constitute a standard, specification or OF CONTENTSC hapter Page1. General Goals of This Report case Study Approach case Studies Used Report Organization 52. THEORY OF CRACK INITIATION AND Introduction to Elastic Theory Crack Propagation Life from an Initial Length Critical Crack Length and Brittle Fracture 133. case 1: THE SHADE-LOHMANN Description of Bridges Inspection and Detection Finite Element Model Repair and Fracture Control 284. case 2: THE 1-74 BRIDGE OVER VERMILION RIVER AT Field Investigation Structural Analysis of Bridge Analysis of Retrofit 365. case 3: MAHOMET BRIDGE ON 1-74 OVER THE SANGAMON Field Investigation Structural Analysis of Bridge Finite-Element Analysis of the Floor Beam Cope 426.

8 SUMMARY AND Summary and Conclusions On Methodology Future Work 53 REFERENCES 54iiLIST OF TABLEST able Crack Propagation Characteristics of Various Steels Selected Member Descriptions for Shade-Lohmann Bridge Analytical Test of Proposed Retrofit Design Comparison of Computed and Measured Stresses AILSS Survey of CRACKING in Bridges -- Cases Related to Present Study 48iiLIST OF FIGURESF igure Propagation of a Simple Through Edge Crack Illustration of Crack Front Geometry Reinitiation of a Crack from a Hole Correction Factor for a Crack Propagating from a Hole THREE Basic Modes of Crack Surface Displacement Wrious Correlations Between Kic and CVN Kk Data For A-36 Steel Reported by Rolfe and Barsom Sketch of the Shade-Lohmann Bridge Sketch of Typical Floorbeam Crack Location Photograph of Typical Web CRACKING in Floor Beam Crack Measurements at Floorbeam Ends, Various Panel Points Crack Measurements at Floorbeam Ends.

9 Various Panel Points Crack Measurements at Floorbeam Ends Near Suspended Span HangersWest Bound Bridge Crack Measurements at Floorbeam Ends Near Suspended Span HangersEast Bound Bridge Effect of Transverse Vehicle Position on Stress at End of Floorbeam Postulated Distortion Due To Longitudinal Forces A Possible Repair Detail After Fisher Shade-Lohmann Slab-flange Separation Detail Cross Section of Vermillion River Bridge on 1-74 at Danville Upper Flange Connection Detail for Cross Frame Retrofit Scheme to Reduce Diagonal Forces Plan View of THREE -Span Grid Model of Bridge Axial Force in Cross-Frame Diagonal Due to 32 Kip Axle Sketch of Loading for Retrofit Cross Frame Study Section Through Strain Relief Device Bridge over the Sangamon River on 1-74 at Mahomet Cope Area on 1-74 Bridge over the Sangamon River Finite-Element Model of the Floor Beam Cope Detail of Element Model Around Cope FEM Study of Stresses Adjacent to Beam Cope 45ivFigure Diagrammatic Flow of Methodology Sketch of Fatigue Crack Gage -- After Reference 17 52 CHAPTER GeneralFloor system CRACKING PROBLEMS , the focus of the present study, occur in bothstructures of recent construction and in older bridges which have been in service for manyyears.

10 Thus this report deals with one of the several issues in the management of maintenanceand rehabilitation of bridges in the highway transportation system of the State of Illinois andthe nation. Recent inspections of steel bridge floor systems in Illinois have revealed theexistence of cracks in floor beam connection and cope regions which are not alwaysattributable to expected, load related, causes. Structural behavior due to loads or effectsoutside of the usual realm of design calculation is present and deserves maintenance, rehabilitation and the planning for the replacement of bridgestructures consumes an ever increasing portion of resources and of the time of the staff ofIDOT and the various state bridge departments. Systematic inspections of bridge structuresare now either mandated or attempted as forces permit depending on the class of highway orstreet usage and ownership.