Effect of number of tool shoulders on the quality of steel to magnesium alloy dissimilar friction stir welds

Due to magnesium and iron’s immiscibility, joining magnesium alloy and steel with modern welding procedures like friction stir welding (FSW) is still complicated. Insufficient chemical bonding and mixing of raw materials in the stir zone are the main problems of joining magnesium alloy and steel. Ac...

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Published in	Archives of Civil and Mechanical Engineering Vol. 23; no. 2; p. 125
Main Authors	Khalaf, Hassanein I., Al-Sabur, Raheem, Derazkola, Hamed Aghajani
Format	Journal Article
Language	English
Published	London Springer London 24.04.2023 Springer Nature B.V
Subjects	Chemical bonds Civil Engineering Crack initiation Dissimilar material joining Energy consumption Engineering Friction Friction stir welding Heat generation Intermetallic compounds Low carbon steel Magnesium alloys Magnesium base alloys Mechanical Engineering Mechanical properties Metals Miscibility Original Article Raw materials Shear strength Shoulder Steel alloys Structural Materials Tensile strength Tensile tests Welded joints Zinc Magnesium Steel Tool shoulder Pin profile Friction stir welding
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ISSN	2083-3318 1644-9665 2083-3318
DOI	10.1007/s43452-023-00673-z

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Abstract	Due to magnesium and iron’s immiscibility, joining magnesium alloy and steel with modern welding procedures like friction stir welding (FSW) is still complicated. Insufficient chemical bonding and mixing of raw materials in the stir zone are the main problems of joining magnesium alloy and steel. Accordingly, this paper aims to use tools with different numbers of shoulders to boost the properties of the final joint. The different tools with 1, 2, 3 and 4 shoulders were produced and used between magnesium alloy and steel during FSW. The thermal changes during the process are monitored, material flow and mechanical properties are investigated, and fractography is done on the tensile test samples. The results show that increasing shoulder numbers enhances frictional heat generation but not leads to more mechanical interlocking of base metals at interfaces. The maximum heat was generated when welded by two shoulders (600 °C), and the lowest heat was generated in one shoulder joints (540 °C). The number of shoulders for achieving the best mechanical properties has limitations. The results show that the final quality of the joint improves from one shoulder tool to three, but shows decreases at joints that were welded by more than three shoulders. The most robust tensile strength was recorded in two shoulder samples (210 MPa) with brittle fracture behavior.
AbstractList	Due to magnesium and iron’s immiscibility, joining magnesium alloy and steel with modern welding procedures like friction stir welding (FSW) is still complicated. Insufficient chemical bonding and mixing of raw materials in the stir zone are the main problems of joining magnesium alloy and steel. Accordingly, this paper aims to use tools with different numbers of shoulders to boost the properties of the final joint. The different tools with 1, 2, 3 and 4 shoulders were produced and used between magnesium alloy and steel during FSW. The thermal changes during the process are monitored, material flow and mechanical properties are investigated, and fractography is done on the tensile test samples. The results show that increasing shoulder numbers enhances frictional heat generation but not leads to more mechanical interlocking of base metals at interfaces. The maximum heat was generated when welded by two shoulders (600 °C), and the lowest heat was generated in one shoulder joints (540 °C). The number of shoulders for achieving the best mechanical properties has limitations. The results show that the final quality of the joint improves from one shoulder tool to three, but shows decreases at joints that were welded by more than three shoulders. The most robust tensile strength was recorded in two shoulder samples (210 MPa) with brittle fracture behavior. Due to magnesium and iron’s immiscibility, joining magnesium alloy and steel with modern welding procedures like friction stir welding (FSW) is still complicated. Insufficient chemical bonding and mixing of raw materials in the stir zone are the main problems of joining magnesium alloy and steel. Accordingly, this paper aims to use tools with different numbers of shoulders to boost the properties of the final joint. The different tools with 1, 2, 3 and 4 shoulders were produced and used between magnesium alloy and steel during FSW. The thermal changes during the process are monitored, material flow and mechanical properties are investigated, and fractography is done on the tensile test samples. The results show that increasing shoulder numbers enhances frictional heat generation but not leads to more mechanical interlocking of base metals at interfaces. The maximum heat was generated when welded by two shoulders (600 °C), and the lowest heat was generated in one shoulder joints (540 °C). The number of shoulders for achieving the best mechanical properties has limitations. The results show that the final quality of the joint improves from one shoulder tool to three, but shows decreases at joints that were welded by more than three shoulders. The most robust tensile strength was recorded in two shoulder samples (210 MPa) with brittle fracture behavior.
ArticleNumber	125
Author	Khalaf, Hassanein I. Derazkola, Hamed Aghajani Al-Sabur, Raheem
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SubjectTerms	Chemical bonds Civil Engineering Crack initiation Dissimilar material joining Energy consumption Engineering Friction Friction stir welding Heat generation Intermetallic compounds Low carbon steel Magnesium alloys Magnesium base alloys Mechanical Engineering Mechanical properties Metals Miscibility Original Article Raw materials Shear strength Shoulder Steel alloys Structural Materials Tensile strength Tensile tests Welded joints Zinc
Title	Effect of number of tool shoulders on the quality of steel to magnesium alloy dissimilar friction stir welds
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