AIR PLASMA TREATMENT FOR IMPROVING THE SAFETY PROPERTIES OF LAMINATED GLASSES CONTAINING IONOPLAST INTERLAYER USED IN CIVIL ENGINEERING

KOVÁČIK, Dušan, Richard KRUMPOLEC, Leila ZAHEDI, Pedram GHOURCHI BEIGI, Monika STUPAVSKÁ, Slavomír SIHELNÍK, Evžen RAINER and Mirko ČERNÁK. AIR PLASMA TREATMENT FOR IMPROVING THE SAFETY PROPERTIES OF LAMINATED GLASSES CONTAINING IONOPLAST INTERLAYER USED IN CIVIL ENGINEERING. In 17th High Pressure Low Temperature Plasma Chemistry Symposium. 2022.

Basic information

• Original name: AIR PLASMA TREATMENT FOR IMPROVING THE SAFETY PROPERTIES OF LAMINATED GLASSES CONTAINING IONOPLAST INTERLAYER USED IN CIVIL ENGINEERING
• Authors: KOVÁČIK, Dušan, Richard KRUMPOLEC, Leila ZAHEDI, Pedram GHOURCHI BEIGI, Monika STUPAVSKÁ, Slavomír SIHELNÍK, Evžen RAINER and Mirko ČERNÁK.
• Edition: 17th High Pressure Low Temperature Plasma Chemistry Symposium, 2022.

Other information

• Original language: English
• Type of outcome: Conference abstract
• Field of Study: 10305 Fluids and plasma physics
• Country of publisher: Netherlands
• Confidentiality degree: is not subject to a state or trade secret
• WWW: URL
• Organization unit: Faculty of Science

Abstract

Laminated glasses used in civil engineering are produced by layering two and often more glass plates, between which a safety foil (interlayer) is placed. The layering and lamination of plates allow not only to increase the standard load-bearing capacity and improve the acoustic insulation properties of the glass, but above all, it enables its residual load-bearing capacity after breakage and prevents the release of glass shards due to their high adhesion to the safety film. For several decades, PVB (Polyvinyl butyral) foils have been the most commonly used interlayer in the laminated safety glasses (LSGs) for building glazing of the standard design to the simplicity of lamination, good safety after breakage and low cost. However, LSGs are increasingly used as a load-bearing and structural support element in modern functional buildings. For these applications, an ionoplast (ionomer-based) interlayer is more suitable, due to its several times higher strength, up to 100 times greater toughness, and considerably higher stability under prolonged load and at higher temperatures. The ionoplast interlayer in LSGs does not depend on the type of glass support and has greater resistance to ageing and clarity. The listed properties of ionoplast interlayer enable to production of thinner and lighter, more safety and high-quality LSGs with the larger dimensions of the minimal framing and point supporting as well as load-bearing glass elements (beams, stairs, floors, railings, etc.).

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