Others also read
| Ultra-thin glass is opening new possibilities for high-performance insulating glass units, delivering improved energy efficiency, comfort, safety, and reduced weight for next-generation glazing solutions.
| A new generation of boro-aluminosilicate glass is opening new possibilities for architecture, combining lightweight design with exceptional strength, durability, and sustainability.
| Discover how Vacuum Insulated Glazing (VIG) is shaping the future of sustainable construction, combining outstanding thermal performance with innovative design solutions for residential, commercial, and heritage buildings.
| 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.
| Highly efficient building-integrated photovoltaics are entering a new phase, combining strong performance with expanded colour and design freedom.
| 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.
| Dive into the blog to learn how cutting-edge solutions are making ultra-thin glass production possible—and scalable.
| 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 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.
| This paper begins with an overview of the different types of modules and their applications. It discusses building regulations including the necessary structural analysis and testing verifications.
| In this paper we focus on automotive applications and describe the tests we performed to find the limits of ultrathin glass in handling and within tests simulating stress expected in the field.
| This paper investigates the influence of Possion´s Effect on the accuracy and applicability of the used linear elastic Euler-Bernoulli beam theory for the determination of the tensile bending strength of thin glass.
| A novel approach to generate a flat plate with enhanced stiffness has been identified. This approach is scalable, offering the potential for improved stiffness for both large-format glass and thin, chemically tempered glass.
| This study provides important design guidance to the Photovoltaic (PV) solar panel development efforts using the finite element based computations of the PV module under the mechanical loadings.
| The current paper explores how digital techniques can be used in the design and manufacturing of an innovative composite façade panel consisting of an additively manufactured polymer core and adhesively bonded thin glass outer sheets.
| This paper focuses on the fire safety aspects related to the use of fire PV panels and systems in building facades.
| This text provides an overview of the PhotoVoltaic lamination process. It examines the differences between various types of laminators, and outlines the process flow for each. It also provides an example of a typical cycle time for EVA/POE lamination.
| Investigations of Electrical and Optical Performances for Window Applications in Tropical Region
| In this work, thermal and electrical performances of a multicrystalline silicon based PV-vacuum glazing were characterised using indoor test cell.
| An experimental study under tensile loading at +23, +40 and +60 °C and different glass build-ups
| In this post, we discuss what emerging designs require and how automotive glass processors can meet these requirements.
Investigations on the Cold Bending Behaviour of a Double Glazing Unit with a Rigid Edge-Spacer Frame
| In this study, the bending process of specially-fabricated double glazing units (‘panels’) is investigated with a focus on a local instability phenomenon.
| Industrial manufacture of solar building components and their integration into the building planning process