In this paper, we review the evolution of 12CrlMoV steel standards at home and abroad, analyze the effects of various elements and determine their optimal contents in steel. The influence of heat treatment and microst...In this paper, we review the evolution of 12CrlMoV steel standards at home and abroad, analyze the effects of various elements and determine their optimal contents in steel. The influence of heat treatment and microstructure on the creep strength of 12CrlMoV steel is investigated. Statistical results from conventional mechanical properties, ductile-brittle transition temperature, high temperature oxidation resistance, aging, instant high temperature properties, and creep are introduced. The results show that the chemical composition and heat treatment process of 12CrlMoVG steel identified in the GB 5310 - 2008 standard is appropriate, resulting in a steel with higher creep strength and good comprehensive properties.展开更多
对经1 055 ℃正火和765 ℃回火优化工艺生产的9Cr 1Mo V Nb N厚壁无缝钢管,进行室温和 566 ℃的静力强塑性的检测和评估,就取样位置和取样方向对强塑性的影响进行了 t统计检验评估及强塑性的标准偏差评估。结果表明,按优化工艺生产的9Cr...对经1 055 ℃正火和765 ℃回火优化工艺生产的9Cr 1Mo V Nb N厚壁无缝钢管,进行室温和 566 ℃的静力强塑性的检测和评估,就取样位置和取样方向对强塑性的影响进行了 t统计检验评估及强塑性的标准偏差评估。结果表明,按优化工艺生产的9Cr 1Mo V Nb N厚壁无缝钢管显著优于1 050 ℃正火和790 ℃回火原工艺生产的厚壁无缝钢管,强塑性指标及其标准偏差已达到进口P91厚壁无缝钢管的水平,表明我国9Cr 1Mo V Nb N厚壁无缝钢管的制造技术已日趋成熟。展开更多
文摘In this paper, we review the evolution of 12CrlMoV steel standards at home and abroad, analyze the effects of various elements and determine their optimal contents in steel. The influence of heat treatment and microstructure on the creep strength of 12CrlMoV steel is investigated. Statistical results from conventional mechanical properties, ductile-brittle transition temperature, high temperature oxidation resistance, aging, instant high temperature properties, and creep are introduced. The results show that the chemical composition and heat treatment process of 12CrlMoVG steel identified in the GB 5310 - 2008 standard is appropriate, resulting in a steel with higher creep strength and good comprehensive properties.
文摘对经1 055 ℃正火和765 ℃回火优化工艺生产的9Cr 1Mo V Nb N厚壁无缝钢管,进行室温和 566 ℃的静力强塑性的检测和评估,就取样位置和取样方向对强塑性的影响进行了 t统计检验评估及强塑性的标准偏差评估。结果表明,按优化工艺生产的9Cr 1Mo V Nb N厚壁无缝钢管显著优于1 050 ℃正火和790 ℃回火原工艺生产的厚壁无缝钢管,强塑性指标及其标准偏差已达到进口P91厚壁无缝钢管的水平,表明我国9Cr 1Mo V Nb N厚壁无缝钢管的制造技术已日趋成熟。