Towards an Integrated Fracture-control Plan for Steel Bridges

Robert J. Connor

2018 AISC T.R. Higgins Lecturer
Professor of Civil Engineering
Director of the S-BRITE Center
Purdue University

Friday, Oct. 19 | 1 to 2 p.m. | Kearney 112 

Reception to follow in the Kearney Hall Atrium. 

Hosted by the The American Institute of Steel Construction. 

There has been considerable research and interest in the topic of fracture-critical members (FCMs) during the past decade. As a result, the entire concept of what constitutes a FCM is being revisited and many long-standing ideas and opinions related to this classification of members is being shown to be overly conservative. Significant advances in the understanding of fracture mechanics, material and structural behavior, fatigue crack initiation, fatigue crack growth, fabrication technology, and inspection technology have allowed other industries to address fracture in a more integrated manner. After years of research, new stand-alone AASHTO-ready guide specifications that give codified direction on how to perform 3D system analysis to verify system redundancy, as well as guide specifications to evaluate internal member-level redundancy of mechanically-fastened built-up members, have been proposed. Additional research demonstrating the benefits of exploiting the improved toughness of modern HPS grades of steel has been completed. Through these advances, it is now possible to create an integrated FCP, combining the original intent of the 1978 FCP, with modern materials, design, fabrication, and inspection methodologies. Further, an integrated FCP will provide economic benefits and improved safety to owners by allowing for a better allocation of resources by setting inspection intervals and scope based on sound engineering rather than based simply on the calendar. In summary, an integrated FCP encompassing material, design, fabrication, and inspection can make fracture no more likely than any other limit state; ultimately, allowing for a better allocation of owner resources and increased steel bridge safety.

About the Speaker

Robert J. Connor is a professor of civil engineering and is director of the S-BRITE Center at Purdue University. Dr. Connor has worked in the area of fatigue, fracture, and other performance and durability issues related to steel bridges for over 25 years. He has published articles in conference proceedings and technical journals, mostly related to fatigue and fracture issues in steel structures, field inspection, and failure investigations. Dr. Connor has been the principal investigator on a number of NCHRP Projects, having successfully completed five NCHRP Projects as principal investigator and three as co-principal investigator. Dr. Connor’s research interests include fatigue and fracture of steel structures, field testing and remote monitoring of structures, bridge inspection reliability, and risk-based inspection methods. He received the George S. Richardson Medal in 2016, an AISC Special Achievement Award in 2012, and was the first recipient of the Robert J. Dexter Memorial Lecture Award in 2005.

About the Lecture

Each year, AISC's T.R. Higgins Lectureship Award recognizes an outstanding lecturer and author whose technical paper or papers, published during the eligibility period, are considered an outstanding contribution to the engineering literature on fabricated structural steel. The award is named for Theodore R. Higgins, former AISC Director of Engineering and Research, who was widely acclaimed for his many contributions to the advancement of engineering technology related to fabricated structural steel. The award honors Theodore for his innovative engineering, timely technical papers and distinguished lectures.