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| 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.
| In this eighth episode, we delve into optimizing energy efficiency in Low-E production.
| 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.
| 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.
| In the seventh episode of the #AskGlaston flat tempering series, the focus is on the Tempering Autopilot.
| 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.
| In this sixth episode of #AskGlaston flat tempering series, we explore how to avoid loading delays in tempering.
| Mikko Rantala on Glastory: Glass tempering is an energy-hungry process, and not just because of the heat.
| As labor shortages and efficiency demands grow, automation is transforming glass tempering—starting with AI-driven batch building that boosts productivity, cuts energy use, and maximizes furnace performance.
| This paper presents a groundbreaking technological development in the optical quality of tempered glass.
| This paper presents a 3-Degree-of-Freedom Modular High-Rise Façade-Cleaning Robot (3-DOF-MHRFCR), consisting of a lifting module, an XYZ motion module, and a cleaning module.
| Spontaneous breakage in tempered glass due to Nickel Sulfide (NiS) inclusions remains a critical topic in the industry—this paper examines the risks, benefits, and effectiveness of heat soaking as a preventive measure across different markets.
| In this experimental investigation, the surface and edge stress were measured on standardized format thermally toughened safety glass, with different edge processing and glass thicknesses from three different suppliers.
| 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 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.
| Scratches on aged glass can weaken its structural integrity, posing safety risks in architecture; this study evaluates the mechanical performance of scratched glass through experimental testing and numerical simulation.
| This paper presents an experimental campaign employing an electric radiant panel as the heat source to investigate the heat transfer phenomena in glass.
| Modern tempering technologies offer impressive energy efficiencies for glass processors. But, have you ever come across energy-saving claims that seem too good to be true?
| The paper compares fitting functions of different polynomial degrees to determine and assess the edge stress.
| Minor fluctuations in the tempering process of architectural glass lead to residual stress differences resulting in birefringence and undesired optical iridescence, also known as anisotropy effects.