Development of microstructure and crystallographic texture in a double-sided friction stir welded microalloyed steel

Rahimi, S. and Wynne, B. P. and Baker, T. N. (2017) Development of microstructure and crystallographic texture in a double-sided friction stir welded microalloyed steel. Metallurgical and Materials Transactions A, 48 (1). pp. 362-378. ISSN 1073-5623

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    Abstract

    The evolution of microstructure and crystallographic texture has been investigated in double-sided friction stir welded microalloyed steel, using electron backscatter diffraction (EBSD). The microstructure analyses show that the centre of stirred zone reached a temperature between Ac1 – Ac3 during FSW, resulting in a dual phase austenitic/ ferritic microstructure. The temperatures in the thermo-mechanically affected zone and the overlapped area between the first and second weld pass did not exceed the Ac1. The shear generated by the rotation probe occurs in austenitic/ferritic phase field where the austenite portion of the microstructure is transformed to a bainitic ferrite, on cooling. Analysis of crystallographic textures with regard to shear flow lines generated by the probe tool, show the dominance of simple shear components across the whole weld. The austenite texture at Ac1 – Ac3 is dominated by the B{11 ̅2}<110> and ¯B {1 ̅12 ̅ }<1 ̅1 ̅0> simple shear texture components, where the bainite phase textures formed on cooling were inherited from the shear textures of the austenite phase with relatively strong variant selection. The ferrite portion of the stirred zone and the ferrites in the thermo-mechanically affected zones and the overlapped area underwent shear deformation with textures dominated by the D1{1 ̅1 ̅2}<111> and D2{112 ̅ }<111> simple shear texture components. The formation of ultra-fine equiaxed ferrite with submicron grain size has been observed in the overlapped area between the first and second weld pass. This is due to continuous dynamic strain-induced recrystallisation as a result of simultaneous severe shear deformation and drastic undercooling.