Influence of Ti on Non-Metallic Inclusion Formation and Acicular Ferrite Nucleation in High-Strength Low-Alloy Steel Weld Metals

Yongjoon Kang; Jihun Jang; Joo Hyun Park

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Influence of Ti on Non-Metallic Inclusion Formation and Acicular Ferrite Nucleation in High-Strength Low-Alloy Steel Weld Metals

机译：Ti对高强度低合金钢焊接金属中非金属夹杂物形成和针状铁素体形核的影响

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The phase transition behaviors of non-metallic inclusions as a function of Ti content were investigated by monitoring changes in the microstructure and mechanical properties of high-strength low-alloy steel multipass weld metals. Weld metals with Ti contents ranging from 0.007 to 0.17 wt% were prepared using a gas metal arc welding process. The inclusion analysis was performed based on thermodynamic calculations and transmission electron microscopy, accompanied by energy-dispersive spectrometry and selected area electron diffraction. With increase in the Ti content of weld metals, the chaotic arrangement of ferrite laths in the columnar zone was transited to a well aligned arrangement and the impact toughness of the weld metals drastically deteriorated in response to the decrease in the Mn content of the inclusion. The effective inclusion phase for intragranular nucleation contained considerable amounts of Mn and a Mn depleted zone was observed around the effective nucleant.

机译：通过监测高强度低合金钢多道次焊接金属的组织和力学性能变化，研究了非金属夹杂物的相变行为随Ti含量的变化。使用气体保护金属电弧焊工艺制备Ti含量为0.007至0.17 wt％的焊接金属。夹杂物分析是基于热力学计算和透射电子显微镜进行的，伴有能量色散光谱法和选择区域电子衍射法。随着焊缝金属中Ti含量的增加，柱状区铁素体板条的混沌排列转变为排列整齐，并且随着夹杂物中Mn含量的降低，焊缝金属的冲击韧性急剧下降。颗粒内成核的有效包容相包含大量的Mn，并且在有效成核剂周围观察到Mn耗尽区。

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《Metals and Materials International》 |2014年第1期|共9页
作者
Yongjoon Kang; Jihun Jang; Joo Hyun Park;
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正文语种 eng
中图分类金属材料;
关键词
high-strength low-alloy steel; welding; nucleation; transmission electron microscopy;

机译：高强度低合金钢;焊接;成核;透射电镜;

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1. Influence of Ti on Non-Metallic Inclusion Formation and Acicular Ferrite Nucleation in High-Strength Low-Alloy Steel Weld Metals [J] . Yongjoon Kang, Jihun Jang, Joo Hyun Park Metals and Materials International . 2014,第1期

机译：Ti对高强度低合金钢焊接金属中非金属夹杂物形成和针状铁素体形核的影响
2. EFFECT OF NON-METALLIC INCLUSIONS ON FORMATION OF STRUCTURE OF THE WELD METAL IN HIGH-STRENGTH LOW-ALLOY STEELS [J] . V. V. GOLOVKO, I. K. POKHODNYA The Paton Welding Journal . 2013,第Juna期

机译：非金属夹杂物对高强度低合金钢中焊接金属组织形成的影响
3. Inclusion Characteristics and Acicular Ferrite Nucleation in Ti-Containing Weld Metals of X80 Pipeline Steel [J] . Wang Bingxin, Liu Xianghua, Wang Guodong Metallurgical and Materials Transactions, A. Physical Metallurgy and Materials Science . 2018,第6期

机译：X80管道钢的含Ti焊料金属中的包涵特性和针状铁氧体成核
4. (1131) Investigation on Non-Metallic Inclusions Acting as Nucleation Sites of Intra-Granular Acicular Ferrites in Al and Ti Deoxidized HSLA Steels [C] . Wang Xinhua, Hu Zhiyong, Jiang Min International Congress on the Science and Technology of Steelmaking . 2012

机译：（1131）对Al和Ti脱氧HSLA钢中颗粒内针状铁氧体的非金属夹杂物的研究
5. Non-Metallic Inclusion Changes in Si-Mn Killed Steels [D] . Papadopoli Tonelli Piva, Stephano. 2018

机译：硅锰镇静钢中非金属夹杂物的变化
6. Influence of Hot Plastic Deformation in γ and (γ + α) Area on the Structure and Mechanical Properties of High-Strength Low-Alloy (HSLA) Steel [O] . Jan Sas, Tibor Kvačkaj, Ondrej Milkovič, 2016

机译：γ和（γ+α）区域的热塑性变形对高强度低合金（HSLA）钢的组织和力学性能的影响
7. On the Role of Non-metallic Inclusions in the Nucleation of Acicular Ferrite in Steels [O] . D. S. Sarma, A. V. Karasev, P. G. Jouml, 2009

机译：关于非金属夹杂物在钢中针状铁氧体成核中的作用

Influence of Ti on Non-Metallic Inclusion Formation and Acicular Ferrite Nucleation in High-Strength Low-Alloy Steel Weld Metals

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