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| 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.
| Advances in architectural design and energy-efficient construction are reshaping expectations for modern glazing solutions.
| At Step Change 2025, ReViSalt demonstrated how its innovations are reshaping the future of glass strengthening.
| Fresh from Step Change 2025, Lithium Designers GmbH, the Frankfurt-based innovators transforming façade planning through parametric design and 3D-printed nodes, shared their insights on how technology is reshaping the future of architectural design.
| The path to low-carbon, high-performance facades depends on mastering the long-term thermal behavior and lifecycle performance of Insulating Glass Units (IGUs).
| At Step Change 2025, in connection with Glass Performance Days 2025, eLstar Dynamics wowed us with their smart glass tech that dynamically shifts from ultra-dark (0.1% transparency!) to crystal clear (up to 70%).
| 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.
| 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.
| Dive into the blog to learn how cutting-edge solutions are making ultra-thin glass production possible—and scalable.
| This paper presents a groundbreaking technological development in the optical quality of tempered glass.
| 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.
| Visual defects, in particular haze, in glass and façade technologies can significantly impact the aesthetic quality and human experience of daylight and views in buildings.
| The two common defects—White Haze and Anisotropy—are often misunderstood but are not the same.
| A recent study by BV Glas and Stuttgart University outlines three pathways to achieve climate neutrality in the glass industry by 2045.
| The latest Glastory blog gives insights on the experiences of the tempering process Autopilot users.
| The approaches proposed by planners and architects for adapting to climate change will be discussed at glasstec 2024 (22-25 October, Düsseldorf) at its Architecture Forum.
| Implementing quality controls and checkpoints during production and inspecting 100% of the tempering process, guarantees less rejections in the field converting into more profit.
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| This paper explains the most common types of visual distortion from the glass production process and considers a virtual prototyping approach.
| Investigations of different positions of the sphere and the satellite and their effect on stress distribution are studied. Both, experimental observations and computational FEM simulations are compared.