Study on micro-structure, solid solubility and tensile properties of 5A90 Al–Li alloy cast by low-frequency electromagnetic casting processing

In this paper, the low-frequency electromagnetic casting (LFEC) processing was introduced as an efficient pollution-free casting technique, and how it influenced the micro-structure and mechanical properties of 5A90 Al–Li alloy was investigated. The mechanical properties of the alloy had a close con...

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Published in:Journal of alloys and compounds 2020-04, Vol.820, p.153318, Article 153318
Main Authors: Wang, Fuyue, Wang, Ning, Yu, Fang, Wang, Xiangjie, Cui, Jianzhong
Format: Article
Language:English
Subjects:
5A90
Aluminum base alloys
Aluminum-lithium alloys
Al–Li alloy
Casting defects
Direct chill casting
Electromagnetic fields
Elongation
Ingot casting
Levitation casting
LF electromagnetic fields
Low-frequency electromagnetic casting
Mechanical properties
Metallurgy
Microstructure
Solid solubility
Strain localization
Temperature distribution
Tensile properties
Ultimate tensile strength
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cited_by cdi_FETCH-LOGICAL-c337t-1c8e6fdba13bffcb9f4959f1bfc5d936111575b9192db9663d16049ad188b2a3
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creator Wang, Fuyue
Wang, Ning
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Wang, Xiangjie
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description In this paper, the low-frequency electromagnetic casting (LFEC) processing was introduced as an efficient pollution-free casting technique, and how it influenced the micro-structure and mechanical properties of 5A90 Al–Li alloy was investigated. The mechanical properties of the alloy had a close connection with the casting metallurgical quality and the precipitation phases. Compared to the conventional direct chill casting (DCC), the LFEC could promote the precipitate of the δ′ (Al3Li)/β′ (Al3Zr) and reduce the width of PFZ, which enhanced the effect of the precipitation strengthen and alleviated the strain localization. Meanwhile, the micro-structure of the ingot was refined significantly and the metallurgical quality was improved after LFEC treatment due to the modification of the flow and temperature field of the sump that caused by the application of low-frequency electromagnetic field. Maximum yield strength and ultimate tensile strength of as-aged alloy cast by LFEC with 150 A/15 Hz could reach 371.85 MPa and 495.5 MPa, while elongation remained at 9.82%. •The low frequency electromagnetic casting (LFEC) were firstly used in semi continuous casting of 5A90 aluminum-lithium alloy.•The effects on micro-structure and mechanical properties of 5A90 aluminum-lithium alloy prepared by LFEC were studied.•The effects of LFEC on solid solubility of alloying elements and hydrogen content of ingot were investigated.
doi_str_mv 10.1016/j.jallcom.2019.153318
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subjects 5A90
Aluminum base alloys
Aluminum-lithium alloys
Al–Li alloy
Casting defects
Direct chill casting
Electromagnetic fields
Elongation
Ingot casting
Levitation casting
LF electromagnetic fields
Low-frequency electromagnetic casting
Mechanical properties
Metallurgy
Microstructure
Solid solubility
Strain localization
Temperature distribution
Tensile properties
Ultimate tensile strength
title Study on micro-structure, solid solubility and tensile properties of 5A90 Al–Li alloy cast by low-frequency electromagnetic casting processing
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