Effects of correction by heating/pressing on mechanical behavior of steel bridge pier

Editorial Committee for the Report on the Hanshin-Awaji Earthquake Disaster (1999). Report on the Hanshin-Awaji Earthquake Disaster -Emergency Repair and Seismic Retrofit-, Maruzen Publish Division, Tokyo, Japan.

Hirohata, M. and Kim, Y. C. (2005). “Ultimate Strength of Cruciform Column Corrected by Heating”. International Journal of Steel Structures, KSSC, Vol. 5, No. 2, pp. 167–171.

Hirohata, M. and Kim, Y. C. (2007a). “Effect of Heating Correction on Compressive Behavior of Projection Panels.” International Journal of Steel Structures, KSSC, Vol. 7, No. 2, pp. 101–107.

Hirohata, M. and Kim, Y. C. (2007b). “Dominant Factors Deciding Compressive Behavior of Cruciform Column Projection Panel Corrected by Heating.” International Journal of Steel Structures, KSSC, Vol. 7, No. 3, pp. 193–199.

Hirohata, M. and Kim, Y. C. (2008). “Generality Verification for Factors Dominating Mechanical Behavior under Compressive Loads of Steel Structural Members Corrected by Heating/Pressing.” International Journal of Steel Structures, KSSC, Vol. 8, No. 2, pp. 83–90.

Japan Road Association (1973). Specifications for Highway Bridge Part II: Steel Bridge, Maruzen Publish Division, Tokyo, Japan.

Japan Society of Civil Engineers (2005). Guidelines for Stability Design of Steel Structures 2nd Edition, Maruzen Publish Division, Tokyo, Japan.

Ministry of Construction Research Institute, Metropolitan Expressway Co., Ltd., Hanshin Expressway Company, Nagoya Expressway Public Corporation, The Japan Iron and Steel Federation, Japan Bridge Association (1999). “Cooperative research report on seismic limit state design method of road bridge pier (1)–(8)”.

Nakai, H., Kawai, A., Yoshikawa, O., Kitada, T. and Miki, T. (1982). “Survey of rigid frame pier.” Bridge and Foundation Engineering, Vol. 16, No. 6, pp. 35–40, and No. 7, pp. 43–49.