Crosslinking and post-crosslinking of ethylene vinyl acetate in photovoltaic modules

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Crosslinking and post-crosslinking of ethylene vinyl acetate in photovoltaic modules. / Oreski, Gernot; Rauschenbach, A.; Hirschl, C. et al.
In: Journal of Applied Polymer Science, Vol. 134.2017, No. 23, 44912, 15.06.2017.

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Oreski G, Rauschenbach A, Hirschl C, Kraft M, Eder GC, Pinter GG. Crosslinking and post-crosslinking of ethylene vinyl acetate in photovoltaic modules. Journal of Applied Polymer Science. 2017 Jun 15;134.2017(23):44912. Epub 2017 Feb 10. doi: 10.1002/app.44912

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Oreski, Gernot ; Rauschenbach, A. ; Hirschl, C. et al. / Crosslinking and post-crosslinking of ethylene vinyl acetate in photovoltaic modules. In: Journal of Applied Polymer Science. 2017 ; Vol. 134.2017, No. 23.

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@article{9a5a41ab23024b6d96a9d580d769a78c,
title = "Crosslinking and post-crosslinking of ethylene vinyl acetate in photovoltaic modules",
abstract = "Ethylene vinyl acetate (EVA) is the dominating material for the encapsulation of solar cells. A better understanding of the crosslinking reaction progress during PV module lamination could lead to promising approaches for shortening of PV module lamination times but also for optimization of the EVA formulation. Therefore, the main aim of this study is to investigate the crosslinking behavior of EVA but also for optimization potentials of the EVA formulation. Currently, a degree of crosslinking higher than 70% obtained from Soxhlet extraction, is used as quality control standard in PV industry. Thermomechanical properties of the investigated EVA films demonstrate a sufficient state of crosslinking already after 5 min, which corresponds to a Soxhlet value of around 50%. Nevertheless, the effect of the remaining, still reactive peroxide crosslinker under service relevant conditions cannot be neglected. Therefore, the behavior of mini-modules manufactured at different lamination times and stored under various aging conditions is investigated. EVA not fully cured during lamination are undergoing postlamination crosslinking. At the same time, remaining active crosslinker causes discoloration at soldering ribbons after accelerated aging. The crosslinking time in the lamination process may be reduced to ≥6 min, compromising between high throughput in production and the need of avoiding degradation.",
keywords = "crosslinking, encapsulation, ethylene vinyl acetate, photovoltaic modules, post-crosslinking, PV module lamination, thermo-mechanical stability",
author = "Gernot Oreski and A. Rauschenbach and C. Hirschl and M. Kraft and Eder, {G. C.} and Pinter, {Gerald Gerhard}",
year = "2017",
month = jun,
day = "15",
doi = "10.1002/app.44912",
language = "English",
volume = "134.2017",
journal = "Journal of Applied Polymer Science",
issn = "0021-8995",
number = "23",

}

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TY - JOUR

T1 - Crosslinking and post-crosslinking of ethylene vinyl acetate in photovoltaic modules

AU - Oreski, Gernot

AU - Rauschenbach, A.

AU - Hirschl, C.

AU - Kraft, M.

AU - Eder, G. C.

AU - Pinter, Gerald Gerhard

PY - 2017/6/15

Y1 - 2017/6/15

N2 - Ethylene vinyl acetate (EVA) is the dominating material for the encapsulation of solar cells. A better understanding of the crosslinking reaction progress during PV module lamination could lead to promising approaches for shortening of PV module lamination times but also for optimization of the EVA formulation. Therefore, the main aim of this study is to investigate the crosslinking behavior of EVA but also for optimization potentials of the EVA formulation. Currently, a degree of crosslinking higher than 70% obtained from Soxhlet extraction, is used as quality control standard in PV industry. Thermomechanical properties of the investigated EVA films demonstrate a sufficient state of crosslinking already after 5 min, which corresponds to a Soxhlet value of around 50%. Nevertheless, the effect of the remaining, still reactive peroxide crosslinker under service relevant conditions cannot be neglected. Therefore, the behavior of mini-modules manufactured at different lamination times and stored under various aging conditions is investigated. EVA not fully cured during lamination are undergoing postlamination crosslinking. At the same time, remaining active crosslinker causes discoloration at soldering ribbons after accelerated aging. The crosslinking time in the lamination process may be reduced to ≥6 min, compromising between high throughput in production and the need of avoiding degradation.

AB - Ethylene vinyl acetate (EVA) is the dominating material for the encapsulation of solar cells. A better understanding of the crosslinking reaction progress during PV module lamination could lead to promising approaches for shortening of PV module lamination times but also for optimization of the EVA formulation. Therefore, the main aim of this study is to investigate the crosslinking behavior of EVA but also for optimization potentials of the EVA formulation. Currently, a degree of crosslinking higher than 70% obtained from Soxhlet extraction, is used as quality control standard in PV industry. Thermomechanical properties of the investigated EVA films demonstrate a sufficient state of crosslinking already after 5 min, which corresponds to a Soxhlet value of around 50%. Nevertheless, the effect of the remaining, still reactive peroxide crosslinker under service relevant conditions cannot be neglected. Therefore, the behavior of mini-modules manufactured at different lamination times and stored under various aging conditions is investigated. EVA not fully cured during lamination are undergoing postlamination crosslinking. At the same time, remaining active crosslinker causes discoloration at soldering ribbons after accelerated aging. The crosslinking time in the lamination process may be reduced to ≥6 min, compromising between high throughput in production and the need of avoiding degradation.

KW - crosslinking

KW - encapsulation

KW - ethylene vinyl acetate

KW - photovoltaic modules

KW - post-crosslinking

KW - PV module lamination

KW - thermo-mechanical stability

UR - http://www.scopus.com/inward/record.url?scp=85012195375&partnerID=8YFLogxK

U2 - 10.1002/app.44912

DO - 10.1002/app.44912

M3 - Article

AN - SCOPUS:85012195375

VL - 134.2017

JO - Journal of Applied Polymer Science

JF - Journal of Applied Polymer Science

SN - 0021-8995

IS - 23

M1 - 44912

ER -