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| Exploring the evolution of laminated safety glass, this paper examines advanced interlayer solutions and their performance in ballistic applications.
| Laminated glass design is challenged by accurately capturing shear coupling and nonlinear behavior, prompting the development of advanced FEM approaches that overcome the limits of traditional theories and commercial software.
| Part One: Understanding and Identifying NiS Inclusions
| Advances in interlayer technology are opening new possibilities for laminated safety glass, with improved stiff PVB delivering higher stiffness, enhanced durability and greater design flexibility for modern façade engineering.
| A First Step to Characterize the Post-fracture Behaviour
| Ultra-thin center glass is redefining what’s possible for insulating glass units—delivering lighter, thinner, and more energy-efficient glazing solutions for modern buildings.
| This research explores how load-bearing glass can move beyond infill applications through an innovative linear metal edge fitting integrated into insulated glazing units.
| This study explores how fibre optic sensors can accurately measure strain and temperature in laminated glass systems, revealing how adhesives, temperature, and load conditions influence the mechanical behaviour of PVB and embedded sensors.
| Understanding how glazing systems behave under blast conditions is essential for designing safer, more resilient façades.
| A new paper explores the complete process and equipment innovations enabling the handling, cutting, and manufacturing of ultra-thin boro-aluminosilicate glass for architectural applications.
| 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.
| 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.
| New international standards are reshaping the way modern façade glass is designed, balancing security performance with comfort, safety, and multifunctionality.
| 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.
| 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.
| 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 addresses the constraints of thin glass in construction and explores optimal bending techniques to maximize its potential through a detailed study of its properties.
| 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 study examines prestressed glass specimens that are 0.5mm, 1.1mm, and 2.1mm thick in comparison to glass of the same thicknesses that have not been enhanced by the novel stiffening method.
| This paper is a discussion about concepts to minimize the glass thickness as much as possible for a usage of thin glass for insulated glass.
| This paper presents an overview of the initial stages of developing a switchable laminated safety glass made of thin glass, polycarbonate, and polyurethane interlayers.
| The aim of this work is the mechanical description of the time-dependent behavior of Polyvinylbutyral (PVB) under large deformations considering quasi-static loading.