Welding of Advanced Aluminum–Lithium Alloys: Weldability, Processing Technologies, and Grain Structure Control
Qi Li, Qiman Wang, Yangyang Xu, Peng Sun, Kefan Wang, Xin Tong, Guohua Wu, Liang Zhang, Yong Xu, Wenjiang Ding

TL;DR
This paper reviews the challenges and solutions in welding Al-Li alloys, focusing on microstructure control to improve weld quality for aerospace applications.
Contribution
The paper systematically examines grain structure formation and control strategies in welding Al-Li alloys, offering insights for next-generation applications.
Findings
Welded Al-Li joints often show equiaxed grain zones and coarse columnar grains, which reduce mechanical performance.
Strategies like pulsed current and external-field-assisted welding help refine grain structures and improve weld quality.
Heterogeneous nucleation and dendrite fragmentation are effective for achieving grain refinement in welds.
Abstract
Aluminum–lithium (Al-Li) alloys are extensively employed in aerospace and space structures because of their low density, high specific stiffness, and excellent fatigue resistance. However, welding of these alloys remains challenging, since the joints typically exhibit unique microstructural features, including equiaxed grain zones (EQZ) along the fusion boundary and coarse columnar grains in the fusion zone, which degrade mechanical performance and increase susceptibility to cracking. This review provides an overview of the generational evolution of Al-Li alloys and their associated weldability, highlights the advantages and limitations of major welding processes, such as laser, arc, and hybrid techniques, and systematically examines the formation mechanisms of EQZ, columnar grains, and equiaxed grain bands. Various strategies for microstructural control are compared, including filler…
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Taxonomy
TopicsAdvanced Welding Techniques Analysis · Welding Techniques and Residual Stresses · Aluminum Alloy Microstructure Properties
