Process Practice for Microstructure Optimization of UNS N09925 Alloy Forgings in Oilfield Service Industry

Wang Shucai; Zhang Jiawei; Yang Liang; Yu Jie; Wu Yinhu; Zhu Yuliang

doi:10.20057/j.1003-8620.2025-00021

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Process Practice for Microstructure Optimization of UNS N09925 Alloy Forgings in Oilfield Service Industry

Product Research and Development | 更新时间：2025-09-11

- Process Practice for Microstructure Optimization of UNS N09925 Alloy Forgings in Oilfield Service Industry
- Special Steel Vol. 46, Issue 5, Pages: 8-13(2025)
- 作者机构：
  
  1.抚顺特殊钢股份有限公司，抚顺 113001
  2.钢铁研究总院有限公司，北京，100080
- 作者简介：
- 基金信息：
- DOI：10.20057/j.1003-8620.2025-00021
  CLC： TG317
- Received：26 January 2025，
  
  Revised：2025-03-31，
  
  Accepted：01 April 2025，
  
  Published：30 September 2025
- 稿件说明：
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王树财,张佳维,杨亮等.油服用UNS N09925合金锻材组织优化的工艺实践[J].特殊钢,2025,46(05):8-13.

Wang Shucai,Zhang Jiawei,Yang Liang,et al.Process Practice for Microstructure Optimization of UNS N09925 Alloy Forgings in Oilfield Service Industry[J].Special Steel,2025,46(05):8-13.
王树财,张佳维,杨亮等.油服用UNS N09925合金锻材组织优化的工艺实践[J].特殊钢,2025,46(05):8-13. DOI： 10.20057/j.1003-8620.2025-00021.

Wang Shucai,Zhang Jiawei,Yang Liang,et al.Process Practice for Microstructure Optimization of UNS N09925 Alloy Forgings in Oilfield Service Industry[J].Special Steel,2025,46(05):8-13. DOI： 10.20057/j.1003-8620.2025-00021.

摘要

为实现油服行业UNS N09925合金的国产化，本研究采用“VIM+VAR”工艺成功冶炼了该合金

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508 mm锭，并开展了

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228.6 mm（9Inch）锻造棒材的锻造工艺优化试验。为优化锻造加热制度，选用

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131 mm锻造棒材为原料研究了热锻态UNS N09925合金从950~1 150 ℃的晶粒度长大规律，试验表明，UNS N09925合金锻材晶粒长大的拐点温度为1 020 ℃，当加热温度达到1 100 ℃以上时，晶粒发生急剧长大。基于锻材晶粒度长大规律，设计采用1 120~1 160 ℃和1 020~1 100 ℃两组不同的加热制度开展了锻造工艺试验，结果证明，采用1 020~1 100 ℃“低温加热”方案生产的两炉

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228.6 mm大圆锻材，棒材锻态及固溶态组织最佳，且通过低倍组织、高倍组织、拉伸性能、冲击性能及截面硬度各项试验验证，产品满足API 6A CRA中的各项指标要求，慢应变腐蚀试验TTF比率达到0.88，RA比率达到0.69，满足行业标准中TTF比率≥0.7、RA比率≥0.6的要求。

Abstract

In order to realize the domestic production of UNS N09 925 alloy in the oilfield servic

e industry， the "VIM+VAR" process was successfully used to smelt

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508 mm ingot of UNS N09925 alloy， and the forging process optimization test of

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228.6 mm （9Inch） forged bar was carried out. In order to optimize the forging heating regime， the grain size growth of UNS N09925 alloy in hot forging state was studied from 950 ℃ to 1 150 ℃ using

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131 mm forging bar as raw material. The experiment shows that the inflection point temperature of grain growth of UNS N09925 alloy is 1 020 ℃. When the heating temperature is above 1 100 ℃， the grai

n grows rapidly. Based on the rule of forging grain size growth， forging process experiments were carried out under two different heating regimes of 1 120 ℃-1 160 ℃ and 1 020 ℃-1 100 ℃. The results showed that the two rods of

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228.6 mm large round forging produced by "low temperature heating" at 1 020 ℃-1 100 ℃ had the best microstructure in forged and solid solution state. Moreover， through the tests of low and high microstructure， tensile properties， impact properties and cross section hardness， the product met the requirements of various indicators in API 6A CRA， and the TTF ratio of slow strain corrosion test reached 0.88 and RA ratio reached 0.69， meeting the requirements of TTF ratio ≥0.7 and RA ratio ≥0.6 in the industry standard.

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Keywords

references

Ganesan P ， Clatworthy E F ， Harris J A . Development of a time-temperature transformation diagram for alloy 925 ［J］. Corrosion ， 1988 ， 44 （ 11 ）： 827 - 835 .

赵国仙，胡晓彤 . 925镍基合金和110SS钢在高温高酸性环境中的电偶腐蚀行为［J］. 装备环境工程， 2020 ， 17 （ 10 ）： 32 - 39 .

卢道胜，刘慧枫，孙永涛，等 . 3.5%NaCl环境中S32205双相不锈钢与N09925镍基合金的钝化膜特征及耐蚀性［J］. 腐蚀与防护， 2024 ， 45 （ 6 ）： 15 - 20 .

赵　展，李景阳，董建新，等 . 925镍铁基耐蚀合金均匀化及高温氧化行为［J］. 中国腐蚀与防护学报， 2017 ， 37 （ 1 ）： 1 - 8 .

石照夏，颜晓峰，段春华，等 . 一次时效温度对新型高强耐蚀GH925合金显微组织和力学性能的影响［J］. 中国有色金属学报， 2015 ， 25 （ 7 ）： 1822 - 1831 .

朱禹龙 . Incoloy 925合金热变形行为与晶界特征分布演变规律研究［D］. 重庆：重庆大学， 2021 .

刘存建 . Incoloy 925镍基耐蚀合金热加工和热处理过程中的组织性能演变［D］. 重庆：重庆大学， 2021 .

Zhu Y L ， Cao Y ， Luo R ， et al . Orientation-dependent characteristics for residual grains during hot deformation of nickel-based alloy 925 ［J］. Acta Metallurgica Sinica （English Letters）， 2021 ， 34 （ 9 ）： 1296 - 1306 .

赵　斌 . GH2909合金径向锻造工艺优化研究［J］. 特钢技术， 2016 ， 22 （ 4 ）： 49 - 53 .

苏化兵，刘新权，门若男，等 . 热处理和锻造工艺对Nimonic91高温合金晶粒度和力学性能的影响［J］. 热处理， 2023 ， 38 （ 3 ）： 35 - 39 .

葛　鹏，马晓伟，张杰勉 . 难变形金属径向锻造生产线设计与应用［J］. 锻压装备与制造技术， 2024 ， 59 （ 6 ）： 43 - 46 .

王树财，李宁，王艾竹，等 . 径向锻造变形工艺对GH3625锻材组织的影响：第十四届中国高温合金年会论文集［C］. 北京：冶金工业出版社， 2019 ： 32 .

韩魁，张鹏，王艾竹，等 . 径锻工艺对GH1139合金锻造棒材组织的影响：第十五届中国高温合金年会论文集［C］. 北京：冶金工业出版社， 2023 ： 62 .

陈伟，周江波，岑凯强，等 . GH738细晶棒材快锻工艺及其组织与性能：第十五届中国高温合金年会论文集［C］. 北京：冶金工业出版社， 2023 ： 99 .

约翰汉弗莱斯，格雷戈里S罗勒 . 再结晶与退火［M］. 上海：上海交通大学出版社， 2023 ： 218 - 219 .

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