LiTraCon is a trademark for a translucent concrete building material. The name is short for “light-transmitting concrete”. The technical data sheet from the. The inventor of Litracon™ – Light-Transmitting Concrete is Hungarian architect Áron Losonczi. He invented this material in He filed his. Litracon, a light-transmitting concrete developed by Hungarian architect Áron Losonczi, evoked a tremendous response within the international.
|Genre:||Health and Food|
|Published (Last):||26 November 2006|
|PDF File Size:||16.32 Mb|
|ePub File Size:||10.56 Mb|
|Price:||Free* [*Free Regsitration Required]|
Let There Be Light! If more buildings begin using this technology, more natural light can be used to light offices and stores. DysCrete Nov 18, No Comments. Concrete Home Designs — minimalist in Germany.
LitraCon – About us
POF-based transparent concrete can even be regarded akin to art, making it suitable for museums and specific exhibitions rather than just a construction material. That said, translucent concrete is a great way to save electricity and money. This results in a certain light pattern on the other surface, depending on the fibre structure. Enter your email address to subscribe to this blog and receive notifications of new posts by email. In the early s, forms like translucent concrete products popular today with fine and layered patterns were developed.
LiTraCon light transmitting concrete. Recognizing the value of the do-it-yourself movement of the last several years, trendir.
Fibre and concrete are alternately inserted into moulds at intervals of about mm, adding per cent optical fibres by volume into the concrete mixture. Thousands of strands of optical fibres are cast into concrete.
LiTraCon (light transmitting concrete)
Further, when the light transmitting properties of LitraCon were examined, liteacon results revealed that the produced concrete can be cut into different shapes without losing its transparent property. We are looking at acquisition of mid-size EPC companies for water.
LiTraCon finds applications mainly in architecture and interior design. History Light transmitting concrete is a translucent concrete building material made of fine concrete embedded with 5 per cent by weight of optical glass fibres.
And with green building gathering momentum, it becomes even more necessary to optimally utilise natural resources. Inhe started a German company named Litracon Bt and started producing Litracon commercially.
Despite their relatively small proportion—only 4 percent of the conctete volume of the blocks—the parallel optical fibers transmit light effectively through walls up to several meters thick.
Supporting materials The two basic materials used are fine concrete, which is cement and fine aggregate, and optical fibres, which are of three kinds: With energy savings and heat insulation among its properties, it is clear that translucent concrete is the future.
Because of their small size, the fibers blend into the concrete, becoming a component of the material like small pieces of ballast.
Green buildings would get easy accreditation under daylight savings with the use of this product.
The large number and small diameter of the light transmitting fibers result in a homogeneous mixture that assumes a new identity. Yet, it is beginning to be used in a variety of applications in architecture, and holds tremendous promise for the future. Translucent concrete can enhance security in places like schools, museums and prisons where people and their actions can be seen, but not their entire image, thereby protecting their privacy as well. Energy-generating concrete DysCrete is a dye-sensitized energy-generating concrete made by coating prefabricated concrete components with layers of organic dyes held in suspension.
LiTraCon blocks are used like bricks or passable paving illuminated from beneath.
Let There Be Light!
Leave A Comment Cancel reply. Although ease of construction is to be compromised, the material is bound to be accepted universally transmitfing to its advantages. Tags intelligent interfacial material multidimensional process product recombinant repurposed transformational ultraperforming.
Electrodynamic fragmentation-based concrete recycling Although it is possible to Oct 07, Modern Contemporary Architecture in Spain — concrete, glass and wood. The disadvantage is that this concrete is expensive because of the optical fibres. It was developed by Hungarian architect Aron Losonczi working llight scientists at the Technical University of Budapest.