Influence of Nb and Ti on High Temperature Oxidation Behavior of 444 Ultra-pure Ferritic Stainless Steel

段秀峰; 张晶晶; 张寿禄; 李国平; 卫英慧

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Influence of Nb and Ti on High Temperature Oxidation Behavior of 444 Ultra-pure Ferritic Stainless Steel

更新时间：2026-01-21

- Influence of Nb and Ti on High Temperature Oxidation Behavior of 444 Ultra-pure Ferritic Stainless Steel
- Special Steel Vol. 42, Issue 4, Pages: 7-11(2021)
- 作者机构：
  
  1. 太原科技大学材料与科学工程学院,太原,030024
  2. 太原钢铁(集团)有限公司先进不锈钢材料国家重点实验室,太原,030003
  3. 山西太钢不锈钢股份有限公司技术中心,太原,030003
- 作者简介：
- 基金信息：
- DOI：
  CLC：
- Received：30 December 2020，
  
  Online First：09 March 2022，
  
  Published：09 March 2021
- 稿件说明：
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段秀峰, 张晶晶, 张寿禄, et al. Influence of Nb and Ti on High Temperature Oxidation Behavior of 444 Ultra-pure Ferritic Stainless Steel[J]. Special Steel, 2021, 42(4): 7-11.
DOI：

段秀峰, 张晶晶, 张寿禄, et al. Influence of Nb and Ti on High Temperature Oxidation Behavior of 444 Ultra-pure Ferritic Stainless Steel[J]. Special Steel, 2021, 42(4): 7-11. DOI：

摘要

研究了444Nb和444NbTi不锈钢在1100 ℃下短时（4 h）高温氧化行为

利用X射线衍射、扫描电子显微镜和能谱仪分析氧化膜物相、微观形貌及化学成分分布。结果表明

444NbTi钢每cm

氧化增重为444Nb钢两倍

这与Ti改变Cr

氧化膜缺陷结构相关。444Nb钢存在氧化膜剥落现象

原因可能为Mn的快速扩散促进了Nb向氧化膜与金属界面处扩散

形成内生Nb的氧化物增大了钢的内应力和热应力。444NbTi钢氧化膜中存在树状的基体

增大了界面强度

且发生了明显的Ti、Al内氧化。

Abstract

The short-term (4 h) high-temperature oxidation behavior of 444Nb and 444NbTi stainless steel at 1100℃ is investigated by X-ray Diffraction

Scan Electron Microscopy and Energy Dispersive Spectrometer to analyze the phase

microscopic morphology and chemical composition distribution of the oxide film. The results show that the oxidation weight gain per cm

of the 444NbTi steel is twice that of the 444Nb steel

which is related to the Ti changing the defect structure of the Cr

oxide film. Spallation of oxide film happens to the 444Nb steel sample

it may be that the rapid diffusion of Mn promotes the diffusion of Nb to the interface between oxide film and metal matrix

and the formation of endogenous Nb oxide increases the internal stress and thermal stress of steel. There is a dendritic matrix in the oxide film of the 444NbTi steel sample

whi

ch increases the interfacial strength

and the Ti and Al undergo obvious internal oxidation.

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