Acicular ferrite nucleation mechanism in laser-MAG hybrid welds of X100 pipeline steel

Qi, Xiaonan; Wang, Xiaonan; Di, Hongshuang; Shen, Xinjun; Huan, Pengcheng; He, Jingrui; Chen, Long

doi:10.1016/j.matlet.2021.130603

Cited by 19 publications

(4 citation statements)

References 10 publications

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“…Thus, the Mn content around the inclusions is lower than that of the matrix, forming the MDZ. [ 17–20 ] The MDZ will greatly increase the driving force of AF nucleation and promote the formation of AF. [ 21–23 ] Moreover, the increase of oxygen content in the weld will increase the phase transformation temperature and further promote the formation of AF.…”

Section: Resultsmentioning

confidence: 99%

Generation of Acicular Ferrite in the Laser‐Welded Weld of X100 Pipeline Steel Induced by CO₂ Shielding Gas

Chen

Wang

et al. 2022

steel research int.

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Laser welding has the potential to be used for pipeline laying. Acicular ferrite (AF) is one of the ideal microstructures to improve the strength and toughness of welds. Herein, the effect of CO2 shielding gas on the microstructure evolution in the laser‐welded weld of X100 pipeline steel is studied. The results show that CO2 shielding gas can induce a large number of Ti2O3‐Al2O3‐MnO‐SiO2 composite inclusions with a size of about 1 μm in the weld. The Ti2O3 in the inclusions promotes the formation of the Mn‐depletion zone (MDZ), resulting in the generation of AF with a volume fraction of 90.6% in the weld. The sizes of AF grains surrounded by high‐angle grain boundaries range from 1 to 3 μm, while the microstructure of the Ar shielded weld is mainly granular bainite. Inclusion mainly contains Al2O3, which cannot promote the formation of MDZ in the Ar shielded weld. The study provides a new method to induce AF in the weld of X100 pipeline steel during laser welding, and it is also useful for steels containing Ti and Mn elements.

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Section: Resultsmentioning

confidence: 99%

Generation of Acicular Ferrite in the Laser‐Welded Weld of X100 Pipeline Steel Induced by CO₂ Shielding Gas

Chen

Wang

et al. 2022

steel research int.

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“…This process is known as the solute depletion mechanism, and the role of titanium oxides in promoting the nucleation of IGF or IAF can be explained by this mechanism. [21,27,[29][30][31] However, not all types of titanium oxide-induced ferrite nucleation can be explained by this mechanism. For example, Gregg et al [24] observed that TiO can induce ferrite nucleation without forming Mn-depleted zone.…”

Section: Mechanism Of Titanium Oxide Nucleating Intragranular Ferritementioning

confidence: 99%

Review of Research on Titanium Oxides in Low‐Carbon Steel

Lei,

Zhang,

et al. 2023

steel research int.

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Titanium oxides, which act as nuclei for intragranular ferrite, are common inclusions in low carbon steel. The interlocking structure of intragranular ferrite greatly improves the mechanical properties of low carbon steel. To make the best use of this kind of oxide, we reviewed the types, sizes and distribution properties of effective titanium oxides that can promote intragranular ferrite nucleation. We summarized the control techniques of titanium oxides as follows: (1) Ti2O3 is one of the most effective of the common titanium oxides, followed by TiO and TiO2. The type of titanium oxide can be affected by controlling the Ti/O mass ratio in molten steel. (2) Titanium oxide with the size range of 0.4‐4 μm can effectively promote the nucleation of IGF or IAF, among them, titanium oxide about 1 μm is the most beneficial to IAF nucleation. (3) In order to obtain the titanium oxides with effective size, the precipitation of titanium oxides should be controlled during the solidification process, and this process can be achieved in the existing rapid solidification technology. Under the same conditions, the higher solidification rate can obtain finer titanium oxide.This article is protected by copyright. All rights reserved.

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“…低炭素鋼溶接金属部は，連続冷却で形成されたアシキュラーフェライト (Acicular Ferrite：AF) を活用することで機械的特性を確保している 1) ．この AF は旧オーステナイト( γ ) 粒内の酸化物から核生成する [2][3][4][5] ．そして，温度低下に伴い，この AF と γ 相の界面で共鳴核生成が起り，微細な組織が形成される [6][7][8][9] ．これまで，AF 分率が増加すると，靭性が改善することが知られている 10,11) ．これは AF 間の大角粒界がき裂の進展を阻害するからである 12,13) ．個々の AF はサブユニットの集合体である 14,15) ．結晶学的に分類するとサブユニットは一つのバリアントからなるラスなので，AF の組織単位はブロックと解釈できる 16) ．これまで，合金元素量により AF 分率が変化することは知られているものの，そのブロックサイズに及ぼす影響は十分に分かっていない．溶接金属の AF は上部ベイナイトである 17) ．上部ベイナイトはセメンタイト( θ )の析出を伴って，フェライト( α ) 相が成長する 18) ．等温保持試験では，旧 γ 粒界やラス間にセメンタイトが形成されると，θ/γ 界面の周辺に C 欠乏層が形成され，これによりベイナイト変態が促進されると考えられている 19,20) The effects of carbon and chromium on the block size of acicular ferrite (AF) were investigated, focusing on cementite formation. Block size of the AF refined with increasing carbon content and coarsened with increasing chromium content.…”

Section: 緒言unclassified

Effects of carbon and chromium on block size of acicular ferrite in low carbon steel weld metals

MATSUO

Kamo

DAIMARU

2022

QUARTERLY JOURNAL OF THE JAPAN WELDING SOCIETY

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Acicular ferrite nucleation mechanism in laser-MAG hybrid welds of X100 pipeline steel

Cited by 19 publications

References 10 publications

Generation of Acicular Ferrite in the Laser‐Welded Weld of X100 Pipeline Steel Induced by CO₂ Shielding Gas

Generation of Acicular Ferrite in the Laser‐Welded Weld of X100 Pipeline Steel Induced by CO₂ Shielding Gas

Review of Research on Titanium Oxides in Low‐Carbon Steel

Effects of carbon and chromium on block size of acicular ferrite in low carbon steel weld metals

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Acicular ferrite nucleation mechanism in laser-MAG hybrid welds of X100 pipeline steel

Cited by 19 publications

References 10 publications

Generation of Acicular Ferrite in the Laser‐Welded Weld of X100 Pipeline Steel Induced by CO2 Shielding Gas

Generation of Acicular Ferrite in the Laser‐Welded Weld of X100 Pipeline Steel Induced by CO2 Shielding Gas

Review of Research on Titanium Oxides in Low‐Carbon Steel

Effects of carbon and chromium on block size of acicular ferrite in low carbon steel weld metals

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Generation of Acicular Ferrite in the Laser‐Welded Weld of X100 Pipeline Steel Induced by CO₂ Shielding Gas

Generation of Acicular Ferrite in the Laser‐Welded Weld of X100 Pipeline Steel Induced by CO₂ Shielding Gas