Residual strength at −40 °C of a precracked cold‐formed rectangular hollow section made of ultra‐high‐strength steel – an engineering approach |
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Authors: | T. Nykänen T. Björk H. Mettänen A. V. Ilyin M. Koskimäki |
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Affiliation: | 1. Lappeenranta University of Technology, Laboratory of Steel Structures, , FIN‐53851 Lappeenranta, Finland;2. Structural integrity department FSUE CRISM ‘Prometey’, , Saint‐Petersburg, 191015 Russia |
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Abstract: | This study investigated the residual strength of a precracked cold‐formed rectangular hollow section made of novel ultra‐high‐strength steel. The primary goal was to experimentally discover the residual strength of the structure when used in low temperature service conditions. The secondary goal was to predict the residual strength by using a J‐integral approach with nonlinear finite element calculations and to compare these predictions with measured results. The experimental tests were carried out with a beam in four‐point bending loading. The test specimens were taken from a cold‐formed rectangular hollow section fabricated from direct quenched (untempered) ultra‐high‐strength steel S960 QC omitting the annealing in the fabrication process. The tests for final failure were carried out at ?40 °C, with the exception of the first pilot test. There were two kinds of tests: (1) the beam was cyclically loaded until the final fracture or the fatigue precrack was first introduced and (2) the specimen was then subjected to a quasistatic bending loading condition until it failed. The new experimental results matched well with our predictions, and both confirmed the high toughness of ultra‐high‐strength steel in beam construction studied, even at a low ambient temperature. |
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Keywords: | thin‐walled structures fracture mechanics residual strength J‐integral ultra‐high strength steel low ambient temperature |
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