LED-embedded glass: Difference between revisions
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'''Transparent LED embedded glass''' is a new [[composite material]] containing [[light emitting diode]]s (LED). It is used as building material and as glass type for many different products. This article is focusing on published<ref>[http://www.sun-tec.ch/downloads/gpd2009shavit.pdf | Download Article: D. Shavit, Transparent Electronic Interlayers, Proceedings of GPD Glass Performance Days, June 2009, pp. 177–180]</ref>,<ref>[http://www.sun-tec.ch/downloads/posterfinland12062007l.pdf |
'''Transparent LED embedded glass''' is a new [[composite material]] containing [[light emitting diode]]s (LED). It is used as building material and as glass type for many different products. This article is focusing on published<ref>[http://www.sun-tec.ch/downloads/gpd2009shavit.pdf | Download Article: D. Shavit, Transparent Electronic Interlayers, Proceedings of GPD Glass Performance Days, June 2009, pp. 177–180]</ref>,<ref>[http://www.sun-tec.ch/downloads/posterfinland12062007l.pdf|Download article: D. Shavit; LED- and SMD embedded Polyester Interlayer Film for Lighting, Sensoric and functional Glass, Poster Session at GPD Glass Performance Days, June 2007, Page 28]</ref> specifications enabling [[building material]]s which will meet security and legislation aspects of [[laminated glass]]. |
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==Gallery== |
==Gallery== |
Revision as of 22:07, 4 January 2011
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Transparent LED embedded glass is a new composite material containing light emitting diodes (LED). It is used as building material and as glass type for many different products. This article is focusing on published[1],[2] specifications enabling building materials which will meet security and legislation aspects of laminated glass.
Gallery
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LED embedded film for semitransparent glass application
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Cuttable LED Strips
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Full colour RGB LED-film laminated to 1x1 m floor glass
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LED glass stair
Composite specification
The LED Glass composite material may consist of using transparent metallized glass[3] as electricity conductor. In this case the final composite specification will be:
- Top Layer:...Standard glass
- Interlayer:...Transparent thermoplastic material like TPU, PVB or EVA
- Interlayer:..LED (light emitting diodes)
- Bottom layer:...Metallised bottom glass
Thermoplastics used
The transparent thermoplastic material will usually show a quite similar light refractive index compared to glass. Typical thermoplastics used in the glass industry to produce these type of security glazings will consist of Thermoplastic Polyurethane[4] (TPU), Ethyl-Vinyl-Acetate[5] (EVA) or Poly-Vinyl-Butyral[6] (PVB).
Production
The specification mentioned above will typically be produced in following steps:
- Vacuum sputtering of transparent conductive material on glass
- Cutting the glass to the final size
- Laser ablation of parts of the conductive material
- Mounting SMD LEDs on the glass by means of a pick & place process
- Lamination of the glasses according the specification mentioned above
Because most of the glass companies are not skilled to mount LEDs (Light Emitting Diodes) onto metallized glass, it makes sense to locate the LEDs on a separate transparent conductive polymeric interlayer[7],[8],[9] which may be laminated by any glass lamination unit. In other words, the remaining process for glass lamination units will consist of laminating together standard glass using 2 layers of thermoplastic interlayers to sandwich ready to use LED embedded films. The final specification will be:
- Top layer:.. Glass
- Interlayer:..Transparent thermoplastic material like TPU, PVB or EVA
- Interlayer:..LED (light emitting diodes)on transparent conductive Polymer
- Interlayer:..Transparent thermoplastic material like TPU, PVB or EVA
- Bottom layer:..Glass
Within this last specification mentioned above, the 2 thermoplastic layers together with the LED Interlayer will reach a total thickness of about 2mm. The usually very economical PVB is the most used lamination interlayer. Its lamination is based on a nip roller pre-heating step followed by an autoclaving process with a final stage at 135 °C and 14 athmospheres. However, polyester has a better adhesion to TPU, to EVA or to [1], which are often laminated using simple vacuum tables. EVASafe contain some hygroscopic crosslinking agent, which will allow its partial crosslinking to active sites of the substrates.
References
- ^ | Download Article: D. Shavit, Transparent Electronic Interlayers, Proceedings of GPD Glass Performance Days, June 2009, pp. 177–180
- ^ article: D. Shavit; LED- and SMD embedded Polyester Interlayer Film for Lighting, Sensoric and functional Glass, Poster Session at GPD Glass Performance Days, June 2007, Page 28
- ^ Hahn, T., EP0900971A1 "Lighting device containing LEDs on glass"
- ^ Bayer Inc., US2006135728 "Thermoplastic polyurethane (TPU) having good adhesion to glass "
- ^ Bridgestone Inc., DE4308885(B4) "Laminated glass with thermoset film of (meth)acrylate or hydrocarbon resin – containing EVA and organic peroxide for high impact strength, penetration resistance and transparency "
- ^ Solutia Inc., WO03057478 "GLASS LAMINATION PROCESS AND APPARATUS"
- ^ D. Shavit: The developments of LEDs and SMD Electronics on transparent conductive Polyester film, Vacuum International, 1/2007, S. 35 ff
- ^ D. Shavit: Elektronische Komponenten in Glaslaminaten: Entwicklung, Stand und Ausblick, Glas, Architektur & Technik, 1/2007
- ^ SUN-TEC Swiss United Technologies Inc. Daniel Shavit, DE202007008410 "Translucent conductive Interlayer with SMD Surface Mounted Electronic Devices – LED embedded films"