Study on the Rolling Forming Process of Mg/Al Composite Foils with Low Edge Cracking
Guang Feng, Zhaopeng Li, Ning Wang, Zhongxiang Li, Shaoyong Du

TL;DR
Researchers developed a multi-step rolling process to create ultra-thin Mg/Al composite foils with minimal edge cracking, offering a practical method for industrial production.
Contribution
A hybrid hot–cold rolling process with optimized parameters is introduced to reduce edge cracking in Mg/Al composite foils.
Findings
A rolling temperature of 400 °C and a reduction ratio of 35% are optimal for superior Mg/Al interface bonding.
A 21-pass process successfully reduced 0.5 mm Mg/Al plates to 30 μm with low edge cracking.
Regulating temperature, reduction ratio, and annealing significantly controls edge cracking in composite foils.
Abstract
What are the main findings? A rolling temperature of 400 °C and a reduction ratio of 35% are the optimal simulated process parameters for achieving superior Mg/Al composite interface bondingThe initial 0.5 mm thick Mg/Al plates were successfully rolled down to 30 μm via a 21-pass process consisting of “hot rolling bonding + hot rolling + cold rolling and annealing”.This multi-stage rolling process can effectively inhibit the initiation and propagation of edge crackings in the composite foils. A rolling temperature of 400 °C and a reduction ratio of 35% are the optimal simulated process parameters for achieving superior Mg/Al composite interface bonding The initial 0.5 mm thick Mg/Al plates were successfully rolled down to 30 μm via a 21-pass process consisting of “hot rolling bonding + hot rolling + cold rolling and annealing”. This multi-stage rolling process can effectively inhibit…
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Taxonomy
TopicsMagnesium Alloys: Properties and Applications · Metal Forming Simulation Techniques · Aluminum Alloys Composites Properties
