Heating rate effect on microstructure evolution during annealing of twin roll cast AA3105

Naiyu Sun; Burton Patterson; Jaakko Suni; Eider Simielli; Hasso Weiland; Puja Kadolkar; Craig Blue; Gregory Thompson

Heating rate effect on microstructure evolution during annealing of twin roll cast AA3105

Naiyu Sun
, Burton Patterson
, Jaakko Suni
, Eider Simielli
, Hasso Weiland
, Puja Kadolkar
, Craig Blue
, Gregory Thompson

National Security Sciences Directorate

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

Abstract

The effect of heating rate on precipitation and recrystallization behavior in twin roll cast (TRC) AA3105 has been investigated using controlled infrared heating. Experimental results show that as-recrystallized grain size decreases as heating rate increases. Time-temperature-transformation curves for both precipitation and recrystallization were obtained. At a heating rate of 50°C/s, the material undergoes grain growth after recrystallization at 500°C. No sign of grain growth was observed in materials heated with lower heating rates, 3, 0.5 and 0.01°C/s.

Original language	English
Title of host publication	Aluminum Wrought Products for Automotive, Packaging, and other Applic. - The James Morris Honorary Symp. - Proc. of Symp. sponsored by the Reactive Metals Committee of the LMD of The Minerals, Metals
Pages	119-123
Number of pages	5
State	Published - 2006
Event	135th TMS Annual Meeting, 2006 - San Antonio, TX, United States Duration: Mar 12 2006 → Mar 16 2006

Publication series

Name	TMS Annual Meeting
Volume	2006

Conference

Conference	135th TMS Annual Meeting, 2006
Country/Territory	United States
City	San Antonio, TX
Period	03/12/06 → 03/16/06

Keywords

Aluminum alloy
Infrared heating
Recrystallization
Twin roll cast

Cite this

Sun, N., Patterson, B., Suni, J., Simielli, E., Weiland, H., Kadolkar, P., Blue, C., & Thompson, G. (2006). Heating rate effect on microstructure evolution during annealing of twin roll cast AA3105. In Aluminum Wrought Products for Automotive, Packaging, and other Applic. - The James Morris Honorary Symp. - Proc. of Symp. sponsored by the Reactive Metals Committee of the LMD of The Minerals, Metals (pp. 119-123). (TMS Annual Meeting; Vol. 2006).

Sun, Naiyu ; Patterson, Burton ; Suni, Jaakko et al. / Heating rate effect on microstructure evolution during annealing of twin roll cast AA3105. Aluminum Wrought Products for Automotive, Packaging, and other Applic. - The James Morris Honorary Symp. - Proc. of Symp. sponsored by the Reactive Metals Committee of the LMD of The Minerals, Metals. 2006. pp. 119-123 (TMS Annual Meeting).

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title = "Heating rate effect on microstructure evolution during annealing of twin roll cast AA3105",

abstract = "The effect of heating rate on precipitation and recrystallization behavior in twin roll cast (TRC) AA3105 has been investigated using controlled infrared heating. Experimental results show that as-recrystallized grain size decreases as heating rate increases. Time-temperature-transformation curves for both precipitation and recrystallization were obtained. At a heating rate of 50°C/s, the material undergoes grain growth after recrystallization at 500°C. No sign of grain growth was observed in materials heated with lower heating rates, 3, 0.5 and 0.01°C/s.",

keywords = "Aluminum alloy, Infrared heating, Recrystallization, Twin roll cast",

author = "Naiyu Sun and Burton Patterson and Jaakko Suni and Eider Simielli and Hasso Weiland and Puja Kadolkar and Craig Blue and Gregory Thompson",

year = "2006",

language = "English",

isbn = "0873396111",

series = "TMS Annual Meeting",

pages = "119--123",

booktitle = "Aluminum Wrought Products for Automotive, Packaging, and other Applic. - The James Morris Honorary Symp. - Proc. of Symp. sponsored by the Reactive Metals Committee of the LMD of The Minerals, Metals",

note = "135th TMS Annual Meeting, 2006 ; Conference date: 12-03-2006 Through 16-03-2006",

}

Sun, N, Patterson, B, Suni, J, Simielli, E, Weiland, H, Kadolkar, P, Blue, C & Thompson, G 2006, Heating rate effect on microstructure evolution during annealing of twin roll cast AA3105. in Aluminum Wrought Products for Automotive, Packaging, and other Applic. - The James Morris Honorary Symp. - Proc. of Symp. sponsored by the Reactive Metals Committee of the LMD of The Minerals, Metals. TMS Annual Meeting, vol. 2006, pp. 119-123, 135th TMS Annual Meeting, 2006, San Antonio, TX, United States, 03/12/06.

Heating rate effect on microstructure evolution during annealing of twin roll cast AA3105. / Sun, Naiyu; Patterson, Burton; Suni, Jaakko et al.
Aluminum Wrought Products for Automotive, Packaging, and other Applic. - The James Morris Honorary Symp. - Proc. of Symp. sponsored by the Reactive Metals Committee of the LMD of The Minerals, Metals. 2006. p. 119-123 (TMS Annual Meeting; Vol. 2006).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

TY - GEN

T1 - Heating rate effect on microstructure evolution during annealing of twin roll cast AA3105

AU - Sun, Naiyu

AU - Patterson, Burton

AU - Suni, Jaakko

AU - Simielli, Eider

AU - Weiland, Hasso

AU - Kadolkar, Puja

AU - Blue, Craig

AU - Thompson, Gregory

PY - 2006

Y1 - 2006

N2 - The effect of heating rate on precipitation and recrystallization behavior in twin roll cast (TRC) AA3105 has been investigated using controlled infrared heating. Experimental results show that as-recrystallized grain size decreases as heating rate increases. Time-temperature-transformation curves for both precipitation and recrystallization were obtained. At a heating rate of 50°C/s, the material undergoes grain growth after recrystallization at 500°C. No sign of grain growth was observed in materials heated with lower heating rates, 3, 0.5 and 0.01°C/s.

AB - The effect of heating rate on precipitation and recrystallization behavior in twin roll cast (TRC) AA3105 has been investigated using controlled infrared heating. Experimental results show that as-recrystallized grain size decreases as heating rate increases. Time-temperature-transformation curves for both precipitation and recrystallization were obtained. At a heating rate of 50°C/s, the material undergoes grain growth after recrystallization at 500°C. No sign of grain growth was observed in materials heated with lower heating rates, 3, 0.5 and 0.01°C/s.

KW - Aluminum alloy

KW - Infrared heating

KW - Recrystallization

KW - Twin roll cast

UR - https://www.scopus.com/pages/publications/33845923503

M3 - Conference contribution

AN - SCOPUS:33845923503

SN - 0873396111

SN - 9780873396110

T3 - TMS Annual Meeting

SP - 119

EP - 123

BT - Aluminum Wrought Products for Automotive, Packaging, and other Applic. - The James Morris Honorary Symp. - Proc. of Symp. sponsored by the Reactive Metals Committee of the LMD of The Minerals, Metals

T2 - 135th TMS Annual Meeting, 2006

Y2 - 12 March 2006 through 16 March 2006

ER -

Sun N, Patterson B, Suni J, Simielli E, Weiland H, Kadolkar P et al. Heating rate effect on microstructure evolution during annealing of twin roll cast AA3105. In Aluminum Wrought Products for Automotive, Packaging, and other Applic. - The James Morris Honorary Symp. - Proc. of Symp. sponsored by the Reactive Metals Committee of the LMD of The Minerals, Metals. 2006. p. 119-123. (TMS Annual Meeting).

Heating rate effect on microstructure evolution during annealing of twin roll cast AA3105

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Publication series

Conference

Keywords

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