Annealing effects on Al/polyimide adhesion in flexible optical solar reflectors

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Annealing effects on Al/polyimide adhesion in flexible optical solar reflectors. / Cordill, Megan J.; Kreiml, Patrice; Lassnig, A. et al.
In: IOP Conference Series: Materials Science and Engineering, Vol. 2023, No. 1287, 012006, 2023.

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Cordill MJ, Kreiml P, Lassnig A, Gebhart D, Žák S, Mitterer C et al. Annealing effects on Al/polyimide adhesion in flexible optical solar reflectors. IOP Conference Series: Materials Science and Engineering. 2023;2023(1287):012006. doi: 10.1088/1757-899X/1287/1/012006

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Cordill, Megan J. ; Kreiml, Patrice ; Lassnig, A. et al. / Annealing effects on Al/polyimide adhesion in flexible optical solar reflectors. In: IOP Conference Series: Materials Science and Engineering. 2023 ; Vol. 2023, No. 1287.

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@article{1c7c593ed996479eb5fac19b83121c2f,
title = "Annealing effects on Al/polyimide adhesion in flexible optical solar reflectors",
abstract = "Flexible optical solar reflectors are made of single and multi-layered metal thin films on polymer substrates and will encounter around 6000 thermal cycles exceeding +/-100°C during one year of operation in low earth orbit. The candidate thin film system of Inconel/silver (Ag)/Teflon (FEP) recently demonstrated early damage formation (cracks and voids) after only a few thermal cycles, most likely due to the poor interfacial properties between Ag and FEP. An alternative material system that could be used is colourless polyimide, Tormed, instead of FEP. Additionally, aluminium (Al) has demonstrated very good interfacial properties with polyimide even after thermal cycling and has suitable optical properties. The adhesion of the Al/Tormed and Ag/Tormed interfaces were evaluated with tensile induced delamination. Generally, Al/Tormed has a much higher interface adhesion energy compared to Ag/Tormed, and there is no significant degradation after bake-out in vacuum (200°C, 10-6 mbar) for 10 and 24 hrs. Thus, the Al/Tormed system could be a more robust coating system for future flexible solar reflectors.",
author = "Cordill, {Megan J.} and Patrice Kreiml and A. Lassnig and David Gebhart and Stanislav {\v Z}{\'a}k and Christian Mitterer and Thomas Grie{\ss}er and Gabor Milassin",
year = "2023",
doi = "10.1088/1757-899X/1287/1/012006",
language = "English",
volume = "2023",
journal = "IOP Conference Series: Materials Science and Engineering",
issn = "1757-8981",
publisher = "IOP Publishing Ltd.",
number = "1287",

}

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TY - JOUR

T1 - Annealing effects on Al/polyimide adhesion in flexible optical solar reflectors

AU - Cordill, Megan J.

AU - Kreiml, Patrice

AU - Lassnig, A.

AU - Gebhart, David

AU - Žák, Stanislav

AU - Mitterer, Christian

AU - Grießer, Thomas

AU - Milassin, Gabor

PY - 2023

Y1 - 2023

N2 - Flexible optical solar reflectors are made of single and multi-layered metal thin films on polymer substrates and will encounter around 6000 thermal cycles exceeding +/-100°C during one year of operation in low earth orbit. The candidate thin film system of Inconel/silver (Ag)/Teflon (FEP) recently demonstrated early damage formation (cracks and voids) after only a few thermal cycles, most likely due to the poor interfacial properties between Ag and FEP. An alternative material system that could be used is colourless polyimide, Tormed, instead of FEP. Additionally, aluminium (Al) has demonstrated very good interfacial properties with polyimide even after thermal cycling and has suitable optical properties. The adhesion of the Al/Tormed and Ag/Tormed interfaces were evaluated with tensile induced delamination. Generally, Al/Tormed has a much higher interface adhesion energy compared to Ag/Tormed, and there is no significant degradation after bake-out in vacuum (200°C, 10-6 mbar) for 10 and 24 hrs. Thus, the Al/Tormed system could be a more robust coating system for future flexible solar reflectors.

AB - Flexible optical solar reflectors are made of single and multi-layered metal thin films on polymer substrates and will encounter around 6000 thermal cycles exceeding +/-100°C during one year of operation in low earth orbit. The candidate thin film system of Inconel/silver (Ag)/Teflon (FEP) recently demonstrated early damage formation (cracks and voids) after only a few thermal cycles, most likely due to the poor interfacial properties between Ag and FEP. An alternative material system that could be used is colourless polyimide, Tormed, instead of FEP. Additionally, aluminium (Al) has demonstrated very good interfacial properties with polyimide even after thermal cycling and has suitable optical properties. The adhesion of the Al/Tormed and Ag/Tormed interfaces were evaluated with tensile induced delamination. Generally, Al/Tormed has a much higher interface adhesion energy compared to Ag/Tormed, and there is no significant degradation after bake-out in vacuum (200°C, 10-6 mbar) for 10 and 24 hrs. Thus, the Al/Tormed system could be a more robust coating system for future flexible solar reflectors.

U2 - 10.1088/1757-899X/1287/1/012006

DO - 10.1088/1757-899X/1287/1/012006

M3 - Article

VL - 2023

JO - IOP Conference Series: Materials Science and Engineering

JF - IOP Conference Series: Materials Science and Engineering

SN - 1757-8981

IS - 1287

M1 - 012006

ER -