A Study of the Metallurgical and Mechanical Properties of Friction-Stir-Processed Cu

Abstract: Friction stir processing (FSP), a severe plastic deformation process, was applied on pure Cu to obtain a stir zone with a very fine grain size. Yet, when FSP is used, the stir zone is as wide as the diameter of the shoulder at the upper surface of the weld and markedly narrower near its opposite surface. This property, as well as the differences between the advancing side and the retreating side, makes it impossible to obtain a uniform cross-section as far as the microstructure and mechanical properties are co… Show more

“…The rotating speed of the tool is always one of the main parameters that affect the performance of SZ. In the published literature, the stirring head speed of various materials in FSP is mostly based on a low rotating speed (200-2000 r/min), as shown in Figure 1 [6][7][8][9][10][11][12][13][14][15][16][17][18][19][20][21][22][23][24][25], and there are few studies on FSP at higher rotating speeds (≥3000 r/min). Scholars [26] believe that heat input in FSW and FSP processes can be reduced at a low rotating speed, so as to obtain better weld quality.…”

An Investigation into Microstructures and Mechanical Properties of 1060 Pure Aluminum during Submerged Friction Stir Processing at a High Rotating Speed

“…The rotating speed of the tool is always one of the main parameters that affect the performance of SZ. In the published literature, the stirring head speed of various materials in FSP is mostly based on a low rotating speed (200-2000 r/min), as shown in Figure 1 [6][7][8][9][10][11][12][13][14][15][16][17][18][19][20][21][22][23][24][25], and there are few studies on FSP at higher rotating speeds (≥3000 r/min). Scholars [26] believe that heat input in FSW and FSP processes can be reduced at a low rotating speed, so as to obtain better weld quality.…”

An Investigation into Microstructures and Mechanical Properties of 1060 Pure Aluminum during Submerged Friction Stir Processing at a High Rotating Speed

Microstructural Changes during Creep and Fractography Study of Friction Stir-Processed Commercially Pure Cu

Synthesis of High Entropy Alloy for Surface Modification by Friction Stir Process: Recent Advances and Future Directions