Effect of Processing Parameters on Superplastic and Corrosion Behavior of Aluminum Alloy Friction Stir Processed

Burgueño, Alejandro; Dieguez, Tomás; Svoboda, Hernán Gabriel

doi:10.4028/www.scientific.net/msf.706-709.965

Cited by 9 publications

(2 citation statements)

References 10 publications

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“…The dynamic recrystallization is attributed to sever plastic deformation of the work material by the probe movement. The Previous studies reported significant gain refinement of 3.3 µm [23], 3.8–7.5 µm [24], 3.6–5.4 µm [25], 5.4 µm [26], 6.2 µm [27], 3.53–4.65 µm [28], 4–6 µm [8] in AA7075 alloy using conventional FSP. Owning to the thermo-mechanical nature of the process, grain refinement is not uniform across the processing thickness.…”

Section: Resultsmentioning

confidence: 99%

Through-thickness microstructure and mechanical properties in stationary shoulder friction stir processed AA7075

Patel

Liu

et al. 2019

Materials Science and Technology

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Stationary shoulder friction stir processing of high strength thick AA7075 aluminium alloy demonstrated tiny gradient in the microstructure refinement across the thickness, which was attributed to the less heat input and small temperature gradient by the stationary shoulder. Stationary shoulder produced a very smooth surface finish with a little amount of flash throughout the processing area. Probe-dominated stir zone (SZ) resulted in uniform grain refinement as well as hardness distribution across the SZ thickness. The ductility in SZ increased by 48% in comparison to the unprocessed material without costing tensile strength. This tensile behaviour trend maintained throughout the thickness in SZ. GRAPHICAL ABSTRACT

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Section: Resultsmentioning

confidence: 99%

Through-thickness microstructure and mechanical properties in stationary shoulder friction stir processed AA7075

Patel

Liu

et al. 2019

Materials Science and Technology

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“…25 Similarly, the influence of process parameters was investigated employing a square pin, and super-plastic behavior was discovered with a combination of lower tool rotation and higher incredible travel speed. 26 The pin profile also influences the metallurgical and mechanical properties of SZ. Since the pin shape produces plastic deformation of the base metal during the FSP, it considerably influences the material flow around the pin location.…”

Section: Introductionmentioning

confidence: 99%

Effect of tool pin profiles on the properties of foamable precursor developed by friction stir processing

Kumar

Singh

Jain

2022

Proceedings of the Institution of Mechanical Engineers, Part E:

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The high-strength lightweight materials are commonly used in automotive industries. Foam is one such material that has a porous structure which makes it light but at the same time provides good absorbent of impact load. In recent years, friction stir processing (FSP) is commonly used for the development of foam. However, the quality of the foam developed mostly depends on the FSP parameters that control the distribution of foamable particles. Thus in this study, the impact of tool pin profiles and numbers of passes on the distribution of a foamable mixture of AA7075/TiH2 in the substrate has been investigated. The three different tool pin profiles, i.e. straight threaded cylindrical (STC), triangular (TR), and square (SQ) pins are used with 2, 4, and 6 number of FSP passes. It is observed that dispersion of TiH2/AA7075 particles in specimens produced with STC tool pin profiles is more uniform than that of TR and SQ pins, resulting in superior material stirring and flow. A significant reduction in particle clustering and improved mixture distribution has been observed in the STC pin profile. Vickers hardness test shows the SQ and TR pin profiles show higher hardness in the processed zone due to lower exposure of temperature. Microwave heating is used to heat the precursor for the development of foam. It is found that the foam developed by STC pin has superior compressive properties due to uniformly distributed small pores.

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Developments in Friction Stir Processing—A Near Net Shape Forming Technique

Patel

Vora

2019

Materials Forming, Machining and Tribology

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Effect of Processing Parameters on Superplastic and Corrosion Behavior of Aluminum Alloy Friction Stir Processed

Cited by 9 publications

References 10 publications

Through-thickness microstructure and mechanical properties in stationary shoulder friction stir processed AA7075

Through-thickness microstructure and mechanical properties in stationary shoulder friction stir processed AA7075

Effect of tool pin profiles on the properties of foamable precursor developed by friction stir processing

Developments in Friction Stir Processing—A Near Net Shape Forming Technique

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