变形量及N含量对油井管用中碳V-Ti-N微合金钢显微组织的影响

Influence of deformation and N content on the microstructure of medium-carbon V-Ti-N microalloyed steels for oil-well tubes

  • 摘要: 采用Gleeble-1500热模拟试验机,研究了某油井管生产工艺中张力减径过程变形量以及C和N含量对中碳V-Ti-N微合金非调质钢室温组织的影响.结果表明:HCLN钢在800℃变形量为20%、40%和60%时,对应的室温组织中铁素体的体积分数依次为17.2%、19.7%和29.9%.N质量分数为2.3×10-4时,800℃变形60%后控冷钢中铁素体的体积分数为含低N(1.1×10-4)钢的1.7倍左右,使含C 0.34%的钢中铁素体含量接近于含C 0.26%的钢,并使铁素体平均晶粒尺寸降低到3μm左右.变形量和钢中N含量二者增大均有利于增加钢中铁素体的数量,且二者综合运用的效果更有效.通过分析可知,800℃变形量的增大,可以提高未再结晶奥氏体晶粒内的缺陷密度,有利于过冷奥氏体连续冷却转变时为晶内铁素体形核提供更多的形核位置.N含量的增大,能够促进第二相析出物的析出,诱导晶内铁素体的析出,提高铁素体含量,并细化其晶粒尺寸.

     

    Abstract: The influence of deformation during stretch reducing, C and N contents on the microstructure of medium-carbon V-Ti-N microalloyed steels for oil-well tubes was investigated with a Gleeble-1500 simulator. The results show that the volume fractions of ferrite in HCLN steel with deformations of 20%, 40% and 60% at 800℃ are 17.2%, 19.7% and 29.9%, respectively. The amount of ferrite in HCHN steel with an N content of 2.3 × 10-4 is almost equal to that in LCLN steel with a C content of 0.26%, and 1.7 times that in HCLN steel with an N content of 1.1 × 10-4. However, the size of ferrite grains in HCHN steel is about 3μm, the smallest among the experimental steels. It is obvious that increasing deformation and N content is beneficial to the amount of ferrite, and it is more effective that deformation and N are used simultaneously. According to analyses, when the degree of deformation enlarges, defects in non-recrystallized austenite grains increase, which is helpful to provide plenty of nucleation sites for intragranular ferrite. While increasing the content of N to 2.3 ×10-4, second-phase precipitation is promoted, the amount of ferrite increases, and ferrite grains are refined simultaneously.

     

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