论文信息 - Temperature-time analysis for steel structures under fire conditions

Temperature-time analysis for steel structures under fire conditions

The objective of the paper is to present a method whereby the time required for a steel structure to sustain the effects of a prescribed temperature rise according to real fire curves can be calculated. The method is divided into two parts. The first part deals with the post-yield behaviour of steel structures at elevated temperatures. It takes into account the variation of the properties of steel material with temperature in an incremental elastoplastic analysis so that the safety factor of the structure under certain fire conditions can be assessed. The second part deals with the heat transfer problem of bare steel members in real fire. Factors affecting the heat transfer process are examined and a model for predicting the temperature variation with time under real fire conditions is proposed. This model results in more accurate temperature predictions for steel members than those obtained from previously adopted model.

[1] B. R. Kirby,et al. High temperature properties of hot-rolled, structural steels for use in fire engineering design studies , 1988 .

[2] Francis Tin-Loi,et al. Nonholonomic computer analysis of elastoplastic frames , 1989 .

[3] A. O. Olawale,et al. The collapse analysis of steel columns in fire using a finite strip method , 1988 .

[4] Jiann-Quo Tarn,et al. A numerical model for the fire response of steel structures , 1991 .

[5] Yukio Ueda,et al. New Efficient and Accurate Method of Nonlinear Analysis of Offshore Tubular Frames (the Idealized Structural Unit Method) , 1985 .

[6] David A. Nethercot,et al. Modelling steel frame behaviour under fire conditions , 1991 .

[7] D. K. Edwards,et al. Scaling Rules for Total Absorptivity and Emissivity of Gases , 1984 .