A medium carbon alloy steel is processed by austenizing at 900 A degrees C for 30 min, then rapid quenching into a patented quenching liquid and holding at 170 A degrees C for 5 min, finally isothermally holding at 250 A degrees C for different times. The morphology and mechanical properties are performed by using optical microscopy and scanning electron microscopy. A multiphase microstructure characterized by a mixture of lenticular prior martensite (PM), fine needle bainitic ferrite and filmy retained austenite (RA) is obtained. It is found that the PM formed firstly upon quenching can accelerate the subsequent bainitic transformation and promote refinement of multiphase colonies. The results show that an optimum mechanical property of a 4000.9 MPa bending strength and a 2030 MPa tensile strength is achieved at 250 A degrees C for 120 min, which is attributed to the multiphase microstructural characteristics and a high product of the volume fraction of RA and the carbon content of austenite.

• 出版日期2018-7
• 单位扬州大学