回火温度对1500MPa级直接淬火钢组织与性能的影响

Effects of tempering temperature on the microstructure and mechanical properties of 1500 MPa grade steel directly quenched

  • 摘要: 设计了一种新型1500MPa级Si-Mn-Cr-Ni-Mo多组元系低合金、超高强度工程结构钢,研究了回火温度对直接淬火钢组织与力学性能的影响.结果表明,抗拉强度随回火温度的升高而不断降低,屈服强度随回火温度升高先升高后下降,延伸率和冲击功均随回火温度升高呈现先升高、后降低、再升高的变化趋势.分析认为,回火过程组织演变的物理机制一方面包括板条马氏体和位错亚结构的回复、再结晶软化过程,另一方面包括残余奥氏体的分解与马氏体中过饱和碳的脱溶及析出第2相的强化机制综合作用.250℃回火后,板条马氏体内析出ε碳化物;400℃回火后ε碳化物明显粗化,产生回火脆性;600℃回火后部分析出相在奥氏体中形核,在马氏体基体内长大和粗化,最终形态为近似球形,另一部分析出相在马氏体内形核、生长,呈现椭球形或矩形.

     

    Abstract: A novel type of 1 500 MPa grade Si-Mn-Cr-Ni-Mo multi-component ultrahigh-strength low-alloy structural steel was designed.The effects of tempering temperature on the microstructure and mechanical properties of the directly-quenched steel were investigated.The results showed that with increasing tempering temperature the tensile strength continuously reduced while the yield strength gradually increased and then decreased.The elongation and impact energy firstly increased,then decreased and increased again with increasing tempering temperature.The physical mechanism of microstructural evolution during tempering includes two aspects:(1) recovery and recrystallization softening processes of lath martensite and dislocation substructure;(2) strengthening mechanism due to decomposition of retained austenite,dissolution of supersaturated carbon and precipitation of the second phase in martensite.ε-carbide precipitation was found in lath martensite after tempering at 250 ℃,and coarsened after tempering at 400 ℃,leading to temper embrittlement.After tempering at 600 ℃,part of the precipitate phase nucleated in austenite,grew up and coarsened in martensite,eventually showed quasi-spherical shape,the other part of the precipitate nucleated and grew up in martensite,and appeared ellipsoidal or rectangular.

     

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