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| Robots are finding their way into the flat glass industry, improving not only process reliability but also product quality. But where exactly are they being used and what specific advantages do they offer?
| 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.
| In the latest Glastory blog post, Antti Aronen analyzes the transformative potential of automated glass tempering.
| This study provides important design guidance to the Photovoltaic (PV) solar panel development efforts using the finite element based computations of the PV module under the mechanical loadings.
| This paper focuses on the fire safety aspects related to the use of fire PV panels and systems in building facades.
| This text provides an overview of the PhotoVoltaic lamination process. It examines the differences between various types of laminators, and outlines the process flow for each. It also provides an example of a typical cycle time for EVA/POE lamination.
| Investigations of Electrical and Optical Performances for Window Applications in Tropical Region
| In this work, thermal and electrical performances of a multicrystalline silicon based PV-vacuum glazing were characterised using indoor test cell.
| 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 the second episode of #AskGlaston Flat Tempering Series, we will talk about the new solution to estimate the stress level in glass – online.
| 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.
| Industrial manufacture of solar building components and their integration into the building planning process
| After seaming, grinding glass edges is another important work step in glass edge processing. The process is primarily used to remove overbreaks and underbreaks at the edges and to process the glass sheets to size.
| In glass edge processing, cutting the glass sheet is directly followed by the seaming process. Fully unprocessed glass edges exhibit overbreaks and underbreaks, conchoidal fractures, as well as micro-cracks along the broken edge.
| 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.
| 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.
| A clean, safe and sustainable source of energy, solar continues to power the world at a faster pace than ever before.
| Computer scientists develop a design tool that opens up the use of a cost-efficient technology for curved glass panels. The tool is based on a deep neural network and allows for the free-form design of beautiful glass façades.
| Glaston is working hard to make tempering furnaces more automated.
| The new LiSEC glass edge deletion machines are equipped with improved sensor technology. This measures with greater precision and therefore guarantees constantly high finishing quality of the glass edges.
| In this paper, the basics of the heat flux modes are given, a solution method for the glass energy equation is introduced, and some tempering furnaces are theoretically studied to show the portions of the heat transfer phenomena inside furnaces during heating.
| Solar glass is used as glazing for solar devices like photovoltaic modules and solarthermal collectors. In many dry regions dust accumulation lead to extreme efficiency losses due to soiling, up to -80% in 6 month.