Dudukovska, A

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The effect of temperature on strain-rate sensitivity in high strength Al-Mg alloy sheet

Romhanji, Endre; Dudukovska, A; Glišić, Dragomir

(Elsevier Science Sa, Lausanne, 2002) 

TY  - JOUR
AU  - Romhanji, Endre
AU  - Dudukovska, A
AU  - Glišić, Dragomir
PY  - 2002
UR  - http://TechnoRep.tmf.bg.ac.rs/handle/123456789/450
AB  - Comprehensive experimental work performed to assess the temperature and strain-rate affected deformation behaviour of commercial AlMg6 type, 1.0 mm thick annealed sheet. Elevated temperature tension test performed at temperatures ranged from 25 to 300 degreesC, and three cross-head rates, giving initial strain rates of epsilon(i) = 6.7 x 10(-4) s(-1), epsilon(2) = 6.7 x 10(-3) s(-1) and epsilon(3) = 6.7 x 10(-2) s(-1). Steady state strain-rate sensitivity (SRS) parameters were calculated (m = d ln sigma/d ln epsilon) for the strain-rate ratios of epsilon(1)/epsilon(2) (1:10), epsilon(2)/epsilon(3) (10:100). It was shown that in the tested AlMg6 alloy sheet the SRS is negative and decreasing type around the room temperature due acting the dynamic strain ageing (DSA). It becomes positive at higher temperatures when the DSA weakening. This transition temperature increases by strain rate. The monotonic increase of the SRS brought by temperature is assumed to be due the enhancement of dynamic recovery and it appeared to be independent on strain rate, except at 300 degreesC. At 300 degreesC decreasing the strain rate brings considerable increase of the SRS. The experienced increase of the terminal m values from similar to0.15 to similar to0.4 for the applied strain-rate ratios of epsilon(1)/epsilon(2) (1:10) and epsilon(2)/epsilon(3) (10:100), respectively, is assumed to be the result of changing the deformation mechanism from recovery to diffusion-controlled solute drag. However, the performed research has shown that the attained increase of the SRS was not followed With appropriate ductility improvement. Analysis of the strain localization (necking) has shown that increasing the strain rate from 6.7 x 10(-4) to 6.7 x 10(-2) s(-1), the temperature brought softening can be compensated, and the process of strain localization (necking) shifted to higher strains.
PB  - Elsevier Science Sa, Lausanne
T2  - Journal of Materials Processing Technology
T1  - The effect of temperature on strain-rate sensitivity in high strength Al-Mg alloy sheet
EP  - 198
SP  - 193
VL  - 125
DO  - 10.1016/S0924-0136(02)00308-4
ER  - 
@article{
author = "Romhanji, Endre and Dudukovska, A and Glišić, Dragomir",
year = "2002",
abstract = "Comprehensive experimental work performed to assess the temperature and strain-rate affected deformation behaviour of commercial AlMg6 type, 1.0 mm thick annealed sheet. Elevated temperature tension test performed at temperatures ranged from 25 to 300 degreesC, and three cross-head rates, giving initial strain rates of epsilon(i) = 6.7 x 10(-4) s(-1), epsilon(2) = 6.7 x 10(-3) s(-1) and epsilon(3) = 6.7 x 10(-2) s(-1). Steady state strain-rate sensitivity (SRS) parameters were calculated (m = d ln sigma/d ln epsilon) for the strain-rate ratios of epsilon(1)/epsilon(2) (1:10), epsilon(2)/epsilon(3) (10:100). It was shown that in the tested AlMg6 alloy sheet the SRS is negative and decreasing type around the room temperature due acting the dynamic strain ageing (DSA). It becomes positive at higher temperatures when the DSA weakening. This transition temperature increases by strain rate. The monotonic increase of the SRS brought by temperature is assumed to be due the enhancement of dynamic recovery and it appeared to be independent on strain rate, except at 300 degreesC. At 300 degreesC decreasing the strain rate brings considerable increase of the SRS. The experienced increase of the terminal m values from similar to0.15 to similar to0.4 for the applied strain-rate ratios of epsilon(1)/epsilon(2) (1:10) and epsilon(2)/epsilon(3) (10:100), respectively, is assumed to be the result of changing the deformation mechanism from recovery to diffusion-controlled solute drag. However, the performed research has shown that the attained increase of the SRS was not followed With appropriate ductility improvement. Analysis of the strain localization (necking) has shown that increasing the strain rate from 6.7 x 10(-4) to 6.7 x 10(-2) s(-1), the temperature brought softening can be compensated, and the process of strain localization (necking) shifted to higher strains.",
publisher = "Elsevier Science Sa, Lausanne",
journal = "Journal of Materials Processing Technology",
title = "The effect of temperature on strain-rate sensitivity in high strength Al-Mg alloy sheet",
pages = "198-193",
volume = "125",
doi = "10.1016/S0924-0136(02)00308-4"
}
Romhanji, E., Dudukovska, A.,& Glišić, D.. (2002). The effect of temperature on strain-rate sensitivity in high strength Al-Mg alloy sheet. in Journal of Materials Processing Technology
Elsevier Science Sa, Lausanne., 125, 193-198.
https://doi.org/10.1016/S0924-0136(02)00308-4
Romhanji E, Dudukovska A, Glišić D. The effect of temperature on strain-rate sensitivity in high strength Al-Mg alloy sheet. in Journal of Materials Processing Technology. 2002;125:193-198.
doi:10.1016/S0924-0136(02)00308-4 .
Romhanji, Endre, Dudukovska, A, Glišić, Dragomir, "The effect of temperature on strain-rate sensitivity in high strength Al-Mg alloy sheet" in Journal of Materials Processing Technology, 125 (2002):193-198,
https://doi.org/10.1016/S0924-0136(02)00308-4 . .
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