Effect of Friction Stir Forming Parameters and Heat Treatment on Mechanical Properties of Fibre-Reinforced Aluminium Alloy

Abstract: Fibre-reinforced materials have garnered attention due to their significant properties such as abrasion and heat resistance, as well as specific strength, which can result in environmental conservation and improved mechanical properties that can solve the limitation of developing light-weight constructions. A new method of joining stainless steel strands with an aluminium alloy using friction stir forming has recently been developed in our laboratory. In present study, the influence of the process parameters o… Show more

“…As shown in figure 1, the shape of the die transfers to the workpiece by placing the work material on the mold and applying friction stir processing to the back surface of the work material. Research on FSF is being conducted in our laboratory [8][9][10][11][12][13][14][15][16]. This study proposes a novel method for joining dissimilar materials that mechanically joins titanium alloy and optical fiber by using friction stir forming, which effectively meets the mentioned above requirements.…”

Innovative Method of Embedding Optical Fiber inside Titanium Alloy Utilizing Friction Stir Forming

“…As shown in figure 1, the shape of the die transfers to the workpiece by placing the work material on the mold and applying friction stir processing to the back surface of the work material. Research on FSF is being conducted in our laboratory [8][9][10][11][12][13][14][15][16]. This study proposes a novel method for joining dissimilar materials that mechanically joins titanium alloy and optical fiber by using friction stir forming, which effectively meets the mentioned above requirements.…”

Innovative Method of Embedding Optical Fiber inside Titanium Alloy Utilizing Friction Stir Forming