Effect of microstructure and texture on the impact transition behaviour of thermo-mechanically treated reinforcement steel bars

摘要

In order to develop earthquake resistant or blast resistant structures for freezing environmental condition, it is necessary to evaluate the impact toughness and impact transition behaviour of thermo-mechanically treated (TMT) reinforcement steel bars. Considering the difficulty in preparing standard geometry Charpy V-notch specimens from the TMT rebar, a new specimen design, on semi-circular cross-section, is proposed in the present study for the impact testing of rebars. Tensile testing and impact toughness testing have been carried out on the TMT rebar samples of different diameters (10-16 mm) to study the processing-microstructure-mechanical property relationship. Among the investigated rebars, higher section rebar (16 mm) showed the best combination of strength, ductility and impact toughness possibly due to the higher tempered martensite rim fraction and the presence of degenerated pearlite and lower bainite at the core region of that rebar. Large fraction of high-angle boundaries and the presence of gamma-fibre texture could have contributed to the lowest ductile-brittle transition temperature (DBTT) in 12 mm rebar. Impact toughness can also be influenced by the residual stress distribution inside the rebars.