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| 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.
| How aerogels boost energy efficiency and may enable advanced technical solutions for insulating glass units, skylights, daylighting and facade glazing.
| This paper reviews current durability literature, various standards for window performance ratings and weathering methods, existing in situ IGU energy performance measurement techniques, and whole-building energy effects.
| It is hypothesized that the usage of smart glass in the building envelope can provide optimum solutions to adapt buildings to the variable climatic and environmental characteristics.
| Unlocking the potential of energy-saving solutions in the glass industry: a guide for Italian companies
| This study identifies the existing supply-chain inefficiencies in the UK glass industry in three stages.
| Gain multiple benefits with upgrades to the glass laminating furnace
| Read the latest Glastory blog by Taneli Ylinen.
| Abatement of the high building energy is possible by employing semitransparent photovoltaic window which has triple point advantages as they control the admitted solar gain and daylight and generates benign electricity.
| A new BIM tool processing IEQ data input for building management and energetic optimizations
| The use of new generation thin, lightweight and damage-resistant glass, originally conceived for electronic displays, is moving its first steps in the built environment, in particular for adaptive and movable skins and façades.
| The paper illustrates the design project of the main laminated glass balustrade of a steel staircase installed in the historical Margherita Theatre in Livorno, Italy.
| In glass tempering, we look for equipment that uses less energy, leading to fewer emissions. But sometimes, the numbers are too good to be true.
| Making new and existing buildings as energy efficient as possible is one way to help meet the EU’s CO2 reduction goals.
| The significance of balancing operational and embodied carbon continues to grow.
| Global environmental concern is motivating efforts to improve energy efficiency in all industrial sectors. And glass tempering is no exception.
| Glass production is an energy-intensive process by its nature, so even small reductions there can result in considerable savings in energy and costs.
| One-Step Multi-Air Pollutant Control Solution.
| The compatibility of two or more materials consists in their capacity to co-exist in juxtaposition for an indeterminate period of time without manifesting signs of detachment (delamination), discoloration or alterations produced by chemical interactions.
| The innovative FINSTRAL window wall system meets demanding requirements – constantly flexible, always individual
| In recent years the growing energy costs and the imposition of increasingly stringent limits to the gaseous emissions into the atmosphere have put a strong pressure on the glassmaking industry to research new solutions to improve the efficiency and ecological sustainability.
| FINSTRAL is a company group with its headquarters in Bolzano (IT) and occupies a successful niche in developing high quality doors and windows, as well as glass fittings.
| The visually stunning cable-stayed glass facade that surrounds the recently-opened Enzo Ferrari Museum in Modena, Italy, is another outstanding demonstration of the qualities and capabilities of SentryGlas® ionoplast interlayer.