Post-fire mechanical properties of advanced high-strength cold-formed steel alloys: Fid-Bau Portal

Post-fire mechanical properties of advanced high-strength cold-formed steel alloys

Yan, Xia / Xia, Yu / Blum, Hannah B. / Gernay, Thomas

Abstract An experimental investigation was conducted on the post-fire mechanical properties of advanced high-strength cold-formed steel alloys. Tensile specimens made of two dual-phase steels and two martensitic steels with nominal yield stress from 340 MPa to 1200 MPa were tested after exposure to temperatures up to 700 °C. The stress-strain curves and mechanical properties were obtained from the tests and post-fire retention factors were derived. Comparison with available test data on hot-rolled and conventional cold-formed steels showed the influence of cold-working and steel grade on the post-fire mechanical properties. The permanent reduction in strength after exposure to elevated temperature is more severe and starts at lower temperatures for cold-formed steels compared with hot-rolled steels. Furthermore, cold-formed steels made of advanced high-strength grade exhibit proportionally larger permanent reductions in yield stress and ultimate stress than those made of conventional grade. A model for the post-fire properties of advanced high-strength cold-formed steels was proposed based on calibration of a simple three-coefficient equation developed through committee work with the American Iron and Steel Institute.

Highlights • Study on post-fire properties of AHSS alloys with up to 1200 MPa yield stress. • Tests of ASTM E8 coupons after exposure to temperatures up to 700 °C. • Comparison with literature data of hot-rolled and cold-formed steels residual properties. • Obtained AHSS data show greater post-fire loss than published data and design codes. • New predictive models are proposed to determine the post-fire mechanical properties of AHSS.