Superplasticity of a Friction Stir Processed 7075-T651 aluminum alloy

T. DIEGUEZ, A. BURGUEÑO, H. G. SVOBODA

Procedia Materials Science

Elsevier

Lugar: Amsterdam; Año: 2012 vol. 1 p. 110 - 117

2211-8128

Superplastic forming is a technological process used to produce metallic components with very complex shapes. In the last two decades it has been a topic of major development. In Fine Structure Superplasticity (FSS), the initial grain size exerts a strong influence on the superplastic behavior, affecting the Grain Boundary Sliding (GBS) mechanism. Refining grain size (GS) the parameters of superplastic forming (temperature and strain rate) could be optimized. Thermal stability of grain structure is also an important factor to obtain superplasticity. FSP is used to refine GS, but the optimum processing parameters are still under study for different materials. In the present study a 7075-T651 aluminium alloy was friction stir processed in order to improve superplastic behavior. Friction stir processed specimens were tensile tested at temperatures between 350 and 450 °C and initial strain rates between 5x10-3and 2.5 x10-2 s-1. A stronginfluence of both temperature andinitial strain rate on the test results was observed. The maximum superplastic elongation was 900% at 400°C and 1x10-2 s-1 strain rate. Due to the low temperature and high strain rate used in the tests these results are better to those obtained in previous works and would be associated withthe processing conditions and designof the tool used.