X70管线钢的应变时效行为

doi:10.11901/1005.3093.2015.325

材料研究学报

2016, Vol. 30

Issue (10): 767-772 DOI: 10.11901/1005.3093.2015.325

研究论文

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X70管线钢的应变时效行为

姜永文¹(

),牛涛¹,安成钢¹,吴新朗²,张彩霞²,代晓莉¹

1. 首钢技术研究院北京 100043
2. 首钢股份公司迁安钢铁公司迁安 064404

Strain Aging Behavior of X70 Pipeline Steel

Yongwen JIANG^1,^**(

),Tao NIU¹,Chenggang AN¹,Xinlang WU²,Caixia ZHANG²,Xiaoli DAI¹

1. Shougang Research Institute of Technology, Beijing 100043, China
2. Shougang Qian’an Iron &Steel Co.Ltd, Qian’an 064404, China;

引用本文:

姜永文,牛涛,安成钢,吴新朗,张彩霞,代晓莉. X70管线钢的应变时效行为[J]. 材料研究学报, 2016, 30(10): 767-772.
Yongwen JIANG, Tao NIU, Chenggang AN, Xinlang WU, Caixia ZHANG, Xiaoli DAI. Strain Aging Behavior of X70 Pipeline Steel[J]. Chinese Journal of Materials Research, 2016, 30(10): 767-772.

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摘要:

采用扫描电子显微镜(SEM)、透射电子显微镜(TEM)等手段研究了时效温度和预应变量对X70管线钢的显微组织和力学性能的影响。结果表明, 由于时效温度比较低(最高300℃), 时效前后X70钢的组织都由粒状贝氏体+针状铁素体+M/A组成, 没有明显的变化。时效前后抗拉强度的变化也不明显。随着时效温度的提高活化的间隙原子增多, 钉扎的位错数量增加, 屈服强度提高; 当时效温度高于200℃时可供钉扎的位错开始大量回复, 屈服强度逐渐降低。随着时效温度的提高柯氏气团及析出物的数量增加, 使材料硬化, 冲击韧性逐渐下降。随着预应变量的增大可被间隙原子钉扎的位错数量增加, 屈服强度逐渐升高。随着预应变量的增大硬质相M/A边界处产生的应力集中不断增大, 产生微裂纹的概率不断提高, 使冲击韧性逐渐下降。

关键词 ：金属材料, X70管线钢, 应变时效, 力学性能, 微观组织

Abstract：

Effect of pre-strain and aging temperature on mechanical property and microstructure of X70 pipeline steel was investigated by means of scanning electron microscope ( SEM ) and transmission electron microscope ( TEM ). The results indicate that the X70 steel shows a microstructure compopsed of granular bainite, acicular ferrite and M/A. The aging temperatures below 300℃, exhibit nearly no effect on the microstructure and the tensile strength of the steel. With the rising of aging temperature, the quantity of activated interstitial atoms, therewith, the pinning effect on dislocations increases, which leads to the gradual increase of the yield strength; However, when the temperature raises to above 200℃, the recovery of pinning effect occurs resulting in the decline of the yield strength. With the rising of aging temperature, the hardening of material induced by the increased cottrell atmosphere and precipitations leads to the decline of the impact toughness. With the increase of the pre-strain, the increment of dislocations may lead to the increase of yield strength, and the stress concentration will increase at boundries of the hard brittle phase M/A, therewith increase the probability of the formation micro-cracks, as a result, the impact toughness delines.

Key words： metal materials X70 pipeline steel strain aging mechanical properties microstructure

收稿日期: 2015-10-12

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https://www.cjmr.org/CN/10.11901/1005.3093.2015.325 或 https://www.cjmr.org/CN/Y2016/V30/I10/767

表1 试验用钢的化学成分(质量分数, %)

表2 不同时效温度试验方案

表3 不同预应变量试验方案

图1 不同时效温度下的力学性能(a)强度; (b)屈强比; (c)伸长率; (d)冲击吸收功

图2 不同预应变下力学性能变化(a)强度; (b)屈强比; (c)伸长率; (d)冲击吸收功

图3 不同预应变下的拉伸曲线局部放大图

图4 不同时效温度下的组织对比(SEM) (a)轧制态; (b)150℃; (c)250℃; (d)300℃

图5 不同预应变量下的冲击断口(SEM) (a) 轧制态; (b) 3%预应变/300℃

图6 不同时效温度下X70位错组态 (a)室温; (b)300℃

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