Improvement of Properties of Laminated Glass Containing Ionoplast Interlayer for Civil Engineering Applications by Atmospheric-Pressure Low-Temperature Plasma Discharge

ZAHEDI, Leila, Richard KRUMPOLEC, Pedram GHOURCHI BEIGI, Slavomír SIHELNÍK, Monika STUPAVSKÁ, Evžen RAINER, Mirko ČERNÁK and Dušan KOVÁČIK. Improvement of Properties of Laminated Glass Containing Ionoplast Interlayer for Civil Engineering Applications by Atmospheric-Pressure Low-Temperature Plasma Discharge. In NANOCON 2022: 14th International Conference on Nanomaterials – Research & Application. 2022. ISBN 978-80-88365-07-5.

Basic information

• Original name: Improvement of Properties of Laminated Glass Containing Ionoplast Interlayer for Civil Engineering Applications by Atmospheric-Pressure Low-Temperature Plasma Discharge
• Authors: ZAHEDI, Leila, Richard KRUMPOLEC, Pedram GHOURCHI BEIGI, Slavomír SIHELNÍK, Monika STUPAVSKÁ, Evžen RAINER, Mirko ČERNÁK and Dušan KOVÁČIK.
• Edition: NANOCON 2022: 14th International Conference on Nanomaterials – Research & Application, 2022.

Other information

• Original language: English
• Type of outcome: Conference abstract
• Field of Study: 10305 Fluids and plasma physics
• Country of publisher: Czech Republic
• Confidentiality degree: is not subject to a state or trade secret
• Organization unit: Faculty of Science
• ISBN: 978-80-88365-07-5

Abstract

Laminated glass is produced in civil engineering industries by layering two or more glass sheets between which a safety foil (interlayer) is placed. The role of this safety layer is to increase residual load-bearing capacity after breakage and prevents the release of broken glasses due to their high adhesion to the safety film. Compared to “standard” PVB interlayers, a new generation of SentryGlas® Ionoplast interlayer is tougher, 100 times stiffer, and performs better over a more comprehensive temperature range. The Ionoplast interlayer does not depend on the type of glass support and has more significant resistance to aging and clarity. Low adhesion of Ionoplast to glass is a technical problem that limits its use, e.g., in producing thin LSGs and photovoltaic panels. At CEPLANT, by applying atmospheric-pressure plasma to the air side of the glass as well as the Ionoplast prior laminating process, there was a significant improvement in the adhesion of the Ionoplast interlayer. During a research project ongoing with the OGB s.r.o. company, we tried to determine the optimal conditions for our plasma device. This research included a study of the DCSBD plasma nanomodification and cleaning effect on the float glass surface and comparison with cleaning using solvents and detergents or an ultrasonic cleaner. This effect was analyzed using modern surface analyses, including the measurement of WCA, SFE, adhesion test, XPS, roughness, and VIS transparency.

Links

• FW03010109, research and development project: Name: Zvýšení efektivity výroby a zlepšení bezpečnostních vlastností skel laminovaných ionoplastovou folií určených pro použití ve stavebnictví

Investor: Technology Agency of the Czech Republic, Subprograms 1 Technology leaders

• LM2018097, research and development project: Name: Centrum výzkumu a vývoje plazmatu a nanotechnologických povrchových úprav (Acronym: CEPLANT)

Investor: Ministry of Education, Youth and Sports of the CR