Effect of austempering temperature on microstructure and cyclic deformation behaviour of multiphase low-carbon steel

This paper examined the cyclic deformation behaviour of multiphase low-carbon steel that was subjected to austempering heat treatments at four temperatures (190 & DEG;C, 230 & DEG;C, 275 & DEG;C, and 315 & DEG;C) below the martensite start temperature (M-s = 353 & DEG;C). The tests were conducted at room temperature, under fully reversed strain-controlled conditions, with strain amplitudes in the range 0.5-1.0%. The microstructure was observed by transmission electron microscopy, and the fracture surfaces were examined by scanning electron microscopy. The steel had a bainite/martensite microstructure, with increasing bainite content for higher austempering temperatures. Irrespective of the tested conditions, it strain-hardened during the first two cycles and then, strain-softened until failure. The austempering temperature did not significantly affect the stress-based, strain-based and energy-based relationships. However, lower austempering temperatures slightly improved the fatigue performance.

Automated summary

This paper investigated the cyclic deformation behavior of multiphase low-carbon steel after austempering heat treatments at four different temperatures. The steel showed a bainite/martensite microstructure, with increasing bainite content at higher austempering temperatures. The steel strain-hardened during the first two cycles and then strain-softened until failure. The austempering temperature did not significantly affect the stress-based, strain-based, and energy-based relationships, but lower austempering temperatures slightly improved fatigue performance.