High temperature deformation in Ti–5Al–2.5Sn alloy

Tan, Ming Jen; Chen, G.W.; Thiruvarudchelvan, S.

doi:10.1016/j.jmatprotec.2007.04.027

Cited by 41 publications

(17 citation statements)

References 5 publications

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“…Therefore, to broaden the application fields of titanium alloys, especially in the aerospace industry, extensive researches on superplastic forming (SPF) of titanium alloys have been carried out [2][3][4][5]. The advantages of SPF are as follows: saving materials and improving product quality, increasing strength and reducing final weight of the components, improving the life of die and achieving very complex shape parts [6]. As a result, it is urgently necessary that SPF is applied on titanium alloys.…”

Section: Introductionmentioning

confidence: 99%

Vacuum superplastic deformation behavior of a near-alpha titanium alloy TA32

et al. 2020

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TA32 is a heat-resistant titanium alloy developed for superplastic forming in fabrication of near-space supersonic aerocraft. Clarification of superplastic deformation behavior is important to the optimization of forming parameters. Superplastic tensile test was conducted in vacuum to eliminate the effect of surface oxidation on experimental data, the test temperature and strain rate varied from 900oC to 960oC and 5.32×10-4 to 2.08×10-2s-1, respectively. It was observed that the size of equiaxed α grains exhibited a trend of coarsening with the increase of temperature and decrease of strain rate. Textures of deformed specimens exhibited random distribution with a decreased texture intensity compared with the as-received materials. The superplastic deformation mechanism of TA32 alloy was dominated by grain boundary sliding, which is accommodated by grain rotation and dynamic recrystallization.

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Section: Introductionmentioning

confidence: 99%

Vacuum superplastic deformation behavior of a near-alpha titanium alloy TA32

et al. 2020

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“…Several investigators have mentioned that DRX occurs in titanium alloy including TB6 titanium alloy during β process [7][8][9][10] , which suggests hot deformation accompanied by DRX should be a promising method for the β grain refinement of the Ti-alloy, and thus deals with the problem of β grain coarsening. Also several prediction model of DRX gain size evolution has been proposed including classical D-Z model by sellars [11,12] , in which the applications to DRX gain size prediction during hot working have been achieved for steel with a low and middle steady stain which can be reached practically.…”

Section: Introductionmentioning

confidence: 99%

Grain Size Evolution Model of TB6 Titanium Alloys During β Process

Xia¹,

Shi-qian²,

Du³

et al. 2017

dtetr

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“…DRX has been observed in several Ti-alloys including Ti-10V-4.5Fe-1.5Al by Balasubrahmanyam [16], Ti-15V-3Cr-3Sn-3Al by Furuhara [17], Ti-5Al-2.5Sn by Tan [18] and Ti-10V-2Fe-3V by Bao [19] and Qiu [20]. The occurrence of DRX in Ti-alloys deformed in β phase field can result in prior β grains refinement.…”

Section: Introductionmentioning

confidence: 99%

Study on the dynamic recrystallization behavior of Ti-alloy Ti–10V–2Fe–3V in β processing via experiment and simulation

Ouyang

2014

Materials Science and Engineering: A

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High temperature deformation in Ti–5Al–2.5Sn alloy

Cited by 41 publications

References 5 publications

Vacuum superplastic deformation behavior of a near-alpha titanium alloy TA32

Vacuum superplastic deformation behavior of a near-alpha titanium alloy TA32

Grain Size Evolution Model of TB6 Titanium Alloys During β Process

Study on the dynamic recrystallization behavior of Ti-alloy Ti–10V–2Fe–3V in β processing via experiment and simulation

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