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| In this episode, Gennadi Schadrin, Director Research & Development IG, shares insights into its creation and the remarkable benefits it brings to glass processors.
| The latest Glastory blog presents how to overcome interlayer temperature hurdles in laminated glass processing with the prediction method. More of the presentation by Mikko Rantala at GPD 2023.
| This is the first video in Glaston's new #AskGlaston Insulating Glass Manufacturing Series.
| In the latest Glastory blog, Jukka Immonen shares some practical tips for optimizing energy consumption in automotive glass production. From preprocessing to final inspection, there is huge potential every step of the way.
| Gain multiple benefits with upgrades to the glass laminating furnace
| Read the latest Glastory blog by Taneli Ylinen.
| In this third episode of the #AskGlaston flat tempering series, Taneli Ylinen deals with the commonly asked question of how to handle the issues with mixed production.
| In this post, we discuss what emerging designs require and how automotive glass processors can meet these requirements.
| This Glastory blog by Kalle Kaijanen is dealing with the processing of high-strength / structural laminates.
| The results of the classification of hail resistance classes for different materials for greenhouse enclosures are presented in this paper.
| In this paper, we present the development of an intrinsic parameter σQM characterizing the sensitivity of a coating (or configuration) to the quench marks.
| In the second episode of #AskGlaston Flat Tempering Series, we will talk about the new solution to estimate the stress level in glass – online.
| This first episode is devoted to the white haze phenomenon – one of the most asked about issues in the history of #AskGlaston.
| This latest Glastory blog by Miika Äppelqvist is dealing with the areas of the tempering process that can be improved to make operations more efficient.
| Industry demand for impeccable glass quality has increased notably over the last years. Customer expectations run high, forcing glass processors to strive for ever-stricter quality control and ensure minimal rejection rates for finished products.
| The most common quality issues that arise in tempered glass are roller waves, glass distortion, bad anisotropy and white haze. In this post, we want to focus on white haze and ways to control it.
| In 2015, the bold concept of a curvy tower at 252 East 57th Street, New York, was presented to an audience at the Glass Performance Days conference. At that time, building construction was just beginning, and no one was certain such a novel idea could be realized.
| This poetry in architecture, one of the most advanced structures in the Nordic countries, Oodi Library exalts the very elements of glass, wood and steel that work in balance as a free-standing masterpiece.
| In glass edge processing, the requirements for the finished components can vary greatly depending on the location and purpose.
| 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.
| Global environmental concern is motivating efforts to improve energy efficiency in all industrial sectors. And glass tempering is no exception.
| Today, almost all new devices – from home appliances to production equipment – are connected. Rapid development in consumer electronics has been increasingly moving towards industrial use. In the glass industry, this development is still in its early stages.
| To really succeed in glass lamination, it takes much more than just having the best equipment – it’s about understanding the process in and out.
| Glass production is an energy-intensive process by its nature, so even small reductions there can result in considerable savings in energy and costs.
| Full convection, forced convection, focused convection, recirculated convection – the list of terms goes on and on.