Others also read
| A new advanced FEM model has been developed to accurately simulate the nonlinear behavior of Insulating Glass Units (IGUs), including curved configurations, offering higher precision and faster computation compared to commercial software.
| Viprotron has developed a new technology for the exit of the furnace, that allows the measurement of the distortion of tempered glass with high precision and unparalleled repeatability.
| ASTM has introduced a new standard, ASTM E3401, to guide the safe use of laminated glass in swimming pools, aquariums, and other applications subject to hydrostatic loads.
| Thermal stress relief treatment offers a promising solution for enabling the reuse and remanufacturing of end-of-life tempered glass, paving the way for more circular economy practices in the flat glass industry.
| New international standards are reshaping the way modern façade glass is designed, balancing security performance with comfort, safety, and multifunctionality.
| By Errol Bull, P.E., CSI, an Application Development Leader at Momentive Performance Materials Inc. Member: IIBEC, ASTM C24, ISO TC59/SC8
| Discover how TPS® boosts IGU longevity and energy performance in this Glastory blog and download the presentation.
| The growing use of glass in modern architecture has increased the importance of laminated safety glass (LSG), prompting new research into how production processes impact its long-term durability and safety.
| A new study explores the potential of liquid optically clear adhesives (LOCA) as interlayers in laminated glass, offering promising solutions for complex curved designs and smart glazing applications.
| Dive into the blog to learn how cutting-edge solutions are making ultra-thin glass production possible—and scalable.
| New research explores how non-destructive photoelastic methods could improve quality control for large-format thermally toughened glass, reducing reliance on costly and time-consuming destructive testing.
| Modeling broken laminated glass remains a challenge—this study proposes a simplified numerical approach based on interlayer experiments.
| This study explores how different laminated glass configurations and interlayer materials impact blast resistance performance.
| This paper investigates the integration of colorimetric analysis into the architectural glass selection process, with a focus on utilizing spectral data to quantitatively characterize colour attributes.
| A new AI-powered tool is set to transform the structural design and analysis of glass facades.
| A new study shows that adding green building requirements to contracts boosts energy performance and sustainability in hot climate zones.
| As glass curtain walls become increasingly popular in modern architecture, understanding how much solar radiation escapes through these transparent facades is essential for accurate cooling load calculations and energy efficiency.
| This research proposes a suite of TO algorithmic frameworks that design specifically for structural glass.
| As modern buildings increasingly use glass for its aesthetic appeal, managing excessive sunlight has become a challenge—this study explores how innovative kinetic façades can optimize indoor daylight while enhancing energy efficiency and comfort.
| Can we state if the Heat Soak Test (HST) was done according to EN14179-1:2005 or not?
| Understanding how glass behaves under high temperatures is essential for improving the safety and performance of glass structures exposed to heat and fire.
| This paper presents the investigation of three LOCA for application as interlayers in laminated glass. Within a comprehensive experimental study, essential material properties were investigated.
| This paper presents an overview of the initial stages of developing a switchable laminated safety glass made of thin glass, polycarbonate, and polyurethane interlayers.
| Understanding the structural behavior of glass under combined static and dynamic loads is crucial for safety and stability.
| The authors investigate the dynamic factor dependency on the major wind excitation parameters, including mean wind velocity, turbulence factor and system dynamic properties, using the Single Degree of Freedom simplification.