Effect of Controlled Rolling and Cooling Process on Microstructure and Performance of X70 Pipeline Steel with Hydrogen Sulfide  Corrosion Resistance

叶晓瑜; 孙新军; 张开华; 王小江; 李卫平; 任守斌

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Effect of Controlled Rolling and Cooling Process on Microstructure and Performance of X70 Pipeline Steel with Hydrogen Sulfide Corrosion Resistance

更新时间：2026-01-21

- Effect of Controlled Rolling and Cooling Process on Microstructure and Performance of X70 Pipeline Steel with Hydrogen Sulfide Corrosion Resistance
- Special Steel Vol. 40, Issue 6, Pages: 55-59(2019)
- 作者机构：
  
  1. 攀钢集团研究院有限公司，飢钛资源综合利用国家重点实验室,攀枝花,617000
  2. 钢铁研究总院工程用钢研究所,北京,100081
  3. 攀钢集团西昌钢钒有限公司，西昌,615000
- 作者简介：
- 基金信息：
- DOI：
  CLC：
- Online First：11 May 2022，
  
  Published：11 May 2019
- 稿件说明：
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叶晓瑜, 孙新军, 张开华, et al. Effect of Controlled Rolling and Cooling Process on Microstructure and Performance of X70 Pipeline Steel with Hydrogen Sulfide Corrosion Resistance[J]. Special Steel, 2019, 40(6): 55-59.
DOI：

叶晓瑜, 孙新军, 张开华, et al. Effect of Controlled Rolling and Cooling Process on Microstructure and Performance of X70 Pipeline Steel with Hydrogen Sulfide Corrosion Resistance[J]. Special Steel, 2019, 40(6): 55-59. DOI：

摘要

根据抗H2S腐蚀X70管线钢的使用特点

采用低碳、超低硫、超低磷、控制Mn含量的技术思路

以控制MnS夹杂物数量和形态、铸坯的枝晶偏析与中心偏析。通过实验室的控轧控冷试验

分析了不同终轧温度和终冷温度对组织和性能的影响

试验结果表明

终轧温度为820℃和840℃时

均可获得准多边形铁素体+粒状贝氏体组织

随着终轧温度的降低

晶粒细化;随着终冷温度的降低

粒状贝氏体含量增加。通过实验室研究结果

确定了工业生产方案

并完成了工业试制。试验结果表明

在820℃终轧

400℃卷取可以获得组织为准多边形铁素体+粒状贝氏体、综合性能优良的产品

其抗HIC敏感测试为0

抗SSCC性能未失效。

Abstract

According to the applied characteristics of X70 pipeline steel with hydrogen sulfide corrosion resistance

the technical ideas of low carbon

ultra-low sulfur

ultra-low phosphorus and controlled Mn content are used to control the number and shape of MnS inclusions

as well as dendritic segregation and center segregation of casting blank. Through controlled rolling and cooling experiment in laboratory

the effects of various finishing temperatures and final cooling temperatures on the microstructure and performance are analyzed. The experiment results show that

with finishing rolling at 820 ℃ or 840 ℃

the microstructure of quasi-polygonal ferrite + granular bainite can be obtained

with the decrease of finishing temperature

grain size decreases ； with the decrease of coiling temperature

the content of granular bainite increases. Based on the experiment results

the industrial production plan is determined

and the trial production has been completed. The experiment results show that

with finishing rolling at 820 ℃. and coiling at 400℃

the product with microstructure of quasi polygonal ferrite + granular bainite can be obtained

it shows excellent comprehensive performance

the anti-HIC sensitivity is 0

and the anti-SSCC performance is not invalid.

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