700℃超超临界机组主蒸汽管道候选材料特性与服役性能研究现状

赵子龙; 李生志; 马翔; 杨行炳; 文作伟; 李烨飞; 严靖博; 张创举

doi:10.19666/j.rlfd.202103041

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700℃超超临界机组主蒸汽管道候选材料特性与服役性能研究现状

技术经济综述 | 更新时间：2025-09-28

- 700℃超超临界机组主蒸汽管道候选材料特性与服役性能研究现状
- Research status of main steam pipe candidate material characteristics and service performance for 700 ℃ ultra supercritical unit
- 热力发电 2021年50卷第11期页码：1-12
- 作者机构：
  
  1. 西安热工研究院有限公司
  2. 西安交通大学金属材料强度国家重点实验室
  3. 上海电气电站设备有限公司上海汽轮机厂
  4. 华能瑞金发电有限责任公司
- 作者简介：
- 基金信息：
- DOI：10.19666/j.rlfd.202103041
  中图分类号： TM621.72
- 纸质出版日期：2021
- 稿件说明：
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赵子龙, 李生志, 马翔, 等. 700℃超超临界机组主蒸汽管道候选材料特性与服役性能研究现状[J]. 热力发电, 2021,50(11):1-12.

ZHAO Zilong, LI Shengzhi, MA Xiang, et al. Research status of main steam pipe candidate material characteristics and service performance for 700 ℃ ultra supercritical unit[J]. Thermal power generation, 2021, 50(11): 1-12.
赵子龙, 李生志, 马翔, 等. 700℃超超临界机组主蒸汽管道候选材料特性与服役性能研究现状[J]. 热力发电, 2021,50(11):1-12. DOI： 10.19666/j.rlfd.202103041.

ZHAO Zilong, LI Shengzhi, MA Xiang, et al. Research status of main steam pipe candidate material characteristics and service performance for 700 ℃ ultra supercritical unit[J]. Thermal power generation, 2021, 50(11): 1-12. DOI： 10.19666/j.rlfd.202103041.

摘要

主蒸汽管道具有服役温度较高、壁厚较大等特点

其不仅要求管道具有良好的持久强度及抗氧化性能

而且对管道候选材料的加工、焊接、疲劳强度等性能提出了较高的要求。国内外相关机构开发以Inconel740H、GH984G、CCA617、Haynes282、HR6W等合金为代表的新型镍基与镍铁基高温合金因其优异的高温持久强度与抗氧化性能

被认为是先进超超临界燃煤发电机组关键部件的主要候选材料。本文考虑主蒸汽管道的尺寸特点、应用环境等因素

详细综述了5种合金材料的成分与组织、持久性能、抗蒸汽氧化性能、抗疲劳性能、应力松弛、焊接性能与加工性能。综合分析得出:Inconel740H合金虽然已经用于火电机组高温部件

但是其焊接填充材料的问题仍需要进一步研究;Haynes282合金的热膨胀系数较低

焊接性能优于Inconel740H合金

是比较有潜力的主蒸汽管道候选材料;对于700℃超超临界机组主蒸汽管道候选材料

在实际投产前仍需要进行大量实验研究。

Abstract

The main steam pipeline has the characteristics of low service temperature and large wall thickness.Besides good durability and oxidation resistance

it also has higher requirements on the processing

welding

fatigue and other properties of candidate materials. The new Ni-based and Ni-Fe-based superalloys represented by Inconel740 H

GH984 G

CCA617

Haynes282

HR6 W and other alloys developed by relevant institutions at home and abroad are considered as the main candidate materials for the key components of advanced ultra-supercritical coal-fired power sets because of their excellent high temperature stress rupture strength and oxidation resistance.By comprehensively considering the dimensional characteristics and use environment of the main steam pipe

this article summarizes the composition and microstructure

durability

steam oxidation resistance

fatigue resistance

stress relaxation

weldability and processing performance of the above six alloy materials in detail. It is concluded that

although Inconel740 H alloy has been used in high-temperature components of thermal power units

the problem of its welding and filling materials still needs further research. Haynes282 alloy has a low thermal expansion coefficient

and its welding performance is better than that of Inconel740 H alloy. It is a potential candidate material for the main steam pipeline. For the candidate materials for the main steam pipe of the 700 ℃ ultrasupercritical unit

a large number of experimental studies are still required before actual production.

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