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| This study delves into the influences of the glazing solar heat gain coefficient (SHGC), the glazing heat transfer coefficient (U-value), and PCM thickness on the energy performance of buildings.
| In the latest Glastory blog post, Per Jensen analyzes the holistic approach to grinding.
Author: Per Jensen | Glaston
Source: glastory.net
Author: Per Jensen | Glaston
Source: glastory.net
| 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.
| A study of its environmental benefits, quality, and mechanical properties
| Glass tempering is a process that can be made in many ways to get tempered glass that meets the standards. The selected way is usually chosen by the operator and is almost always based on experience instead of science.
| Flat glass manufacturers are rightly focused on reducing their operational carbon and in turn the embodied carbon of the glass materials that they create.
| The main benefits from dynamic glass relate to visual light comfort, light control and spectral modulation, privacy modulation and the most critical nowadays energy savings.
| 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.
| First valid steps on the pathway to better re-utilization of glass elements
| This paper will review the impact of silicones at various levels of a sustainable design.
| A way to determine the condition and functionality of a glass furnace is to measure the glass temperature as it exits the furnace.
| The authors present results achieved in a roll-to-roll deposition process of vanadium oxide on flexible glass of 0.1 mm thickness.
| In the latest Glastory blog post, Antti Aronen analyzes the transformative potential of automated glass tempering.
| Read about Uwe Risle's presentation at Glass Performance Days 2023, "Thermoplastic spacer (TPS) - process requirements for optimal application"
| At present, widespread energy innovations in terms of optimizing both the on-site distributed energy generation and the energy use intensity are urgently required in the built environment and in agricultural production facilities.
Unlocking energy efficiency potential: vacuum-insulated glazing for sustainable buildings - Glastory
| Read more about Antti Aronen's presentation at Glass Performance Days (GPD) 2023, "An enhanced model of thermomechanical loading on a Vacuum Insulated Glazing".
| In the new Glastory post by Matthias Loppacher, we explore the evolving landscape of automotive glazing and display processing – and discuss strategies for keeping up with the changes.
| The main objective of this paper was to assess the performance of a new WFG-unitized facade as a high-performance envelope with dynamic thermal properties.
| In this article, Mika gives our readers some expert advice on improving energy efficiency in safety glass manufacturing.
| In the latest Glastory blog post, Antti Aronen introduces how the complexity of automotive windshields and sunroofs has significantly increased with evolving modern car designs.
| Christoph Timm, Principal at SOM New York, shared insights on decarbonizing the built environment and the evolving landscape of sustainable construction.
| In this episode, Gennadi Schadrin, Director Research & Development IG, shares insights into its creation and the remarkable benefits it brings to glass processors.
| How aerogels boost energy efficiency and may enable advanced technical solutions for insulating glass units, skylights, daylighting and facade glazing.