Dynamic deformation behaviour of 0.51C–1.72Si–0.83Mn–0.56Co high-strength steel

Abstract: In this paper, high-strength steel is prepared by different heat-treatment processes. Through split Hopkinson pressure bar experiment, optical microscope, scanning electron microscope and X-ray diffractometer, the microstructure evolution and mechanical behaviour under high strain rate were studied. The results show that the samples prepared by the two-step isothermal method have the highest compressive strength under the same strain rate, especially at 5000 s−1, the highest can reach 2097 MPa. The retained au… Show more

“…The strength of the SSSs can be increased by modifying composition, effective heat treatment, microalloying, and thermo-mechanical treatment [6][7][8][9][10]. Because the SSSs are usually martensitic steels, they can obtain optimal mechanical performance by quenching (Q) and tempering (T).…”

High-performance reality of 55SiCrV spring steel processed by the rapid-induction heat treatment

“…The strength of the SSSs can be increased by modifying composition, effective heat treatment, microalloying, and thermo-mechanical treatment [6][7][8][9][10]. Because the SSSs are usually martensitic steels, they can obtain optimal mechanical performance by quenching (Q) and tempering (T).…”

High-performance reality of 55SiCrV spring steel processed by the rapid-induction heat treatment