| SAT = surface, anti-reflective, thermal SAC = surface, anti-reflective, conductive for curved displays Thanks to its versatility in relation to material and method, this glass represents the ideal supplement to our RControl products. The glass is used mainly with bent glass, though it also offers an excellent performance with flat applications. High-precision optically functional coatings, such as bent optically-coated anti-reflective glass with a variety of transmission and reflection values, can be produced. In addition, the glass can also be combined with conventional coating, finishing, pre-treatment, and post-treatment processes. Whatever the situation, glass finishing with our functional thin-film systems can be tailored perfectly to the needs and wishes of our customers. Advantage: 0.7 – 10mm / dimensions / ultrasound pre-cleaning The display can be realized in a variety of shapes and bends, with optically anti-reflective coating applied. • Curvature radii of 240mm to 3800mm • Other radii on request The advantages of this layer system are: • Flexible: several layers can be combined with one another, enabling product • features such as reflective color and conductivity to be modulated and/or • generated • Need-oriented: a large number of materials with precisely adjustable • characteristics are available. • Low coating rates • Design-oriented: polished, blasted, brushed or otherwise structured areas • are preserved even after vacuum coating and can therefore be used • deliberately as a design element • Outstanding layer adhesion - • Robust: high resistance to friction, scratches, and corrosion is inclusive • with FLABEG With the coating process applied here (EBC), a high-energy electron beam is used to evaporate granular coating material contained in crucibles. The evaporated material fans out in a vapor stream that is then deposited on the glass substrates above the crucibles. This condensation forms the film. With the aid of rotating, multiple-pocket crucibles that can be furnished with different coating materials, it is possible to deposit multiple layers in a single cycle. The coating structure can be controlled by selecting parameters and adjusting the substrate temperature. Precise in-situ control of the coating process (for example, deactivation of the electron gun when the requisite transmission value is reached) makes it possible to produce high-precision optically functional coatings, such as beam splitters with different transmission and reflection values. FLABEG performs electron beam evaporation in batch mode. In addition to metals and oxides in a reactive atmosphere, fluorides and sulphides can also be evaporated. |
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