Vector foiltec etfe is typically used in the construction of roofing systems for buildings that require the full range of UV lighting in an internal setting. What is etfe? Ethylene tetra fluoro ethylene or ETFE is a highly transparent material used in the construction of buildings such as train station platforms. ETFE is mostly preferred in the construction of roofing for buildings that span wide distances, such as stadia. Vector foiltec is amongst the pioneering companies that led in the introduction and development of new fabric construction materials. The company invented Texlon??, a variant of membrane construction materials effective for roofing systems spanning long distances. The innovative technology has gained wide usage worldwide since it was first developed by Vector foiltec 25 years ago. Benefits of etfe ETFE has a high corrosion resistance and can last for not less than 30 years. ETFE roofing systems can withstand a wide range of temperature, as well as all forms of environmental and atmospheric pollution.
The material also boasts excellent chemical properties, as well as energy radiation resistance. The innovative technology has gained usage over the last few years due to its cost effectiveness. Because it is extremely lightweight, etfe reduces the amount of steelwork or concrete needed as support structure for a roofing system. The reduced load means less money is spent on steelwork, reducing overall construction costs. When working on projects such as London’s project Biomass, or the Beijing Olympics Stadium, the cost savings are enormous. Architectural variety The construction of buildings that bring the external environment inside can be readily undertaken using etfe. For architects, etfe is a new construction material that has come of age thanks to technological refining over the last three decades. Some manufacturing and retailing companies such as vector foiltec provide a complete package that includes concept design, scheme design, production and eventual installation. The company also provides continuing facilities management for the etfe structures. Engineers and architects have virtually no limit in design, perhaps only limited by their imagination. A membrane structure is typically made from fabric materials that carry a number of favorable design and functional properties. Why sustainable design? Membrane or fabric designs in construction mainly seek to create constructions that are eco-friendly. Membrane or fabric construction materials are completely biodegradable and don’t portend any harm to the environment. That makes them one of the most environmentally friendly construction materials. Structures made from fabrics such as etfe or ptfe and their derivatives minimize environmental impact, as well as reducing carbon emissions.
Unlike traditional construction materials such as steel and concrete, membrane materials give builders a virtually unlimited option in design. Architectural fabric structures The rise of Architectural fabric structures can be traced back to the 1960s. But back then, fabric structures were mainly used as temporary expositions. One of the motivations for the rise in use of fabric materials in construction was their ability to cover wide spaces when used as roofing. Stadiums, train platforms and bus station roofs can be covered over wide distances with minimal harm to the environment. Benefits Architectural fabric structures can last for durations of more than 30 years. They have high transparency and are perfect for construction of facilities that require natural lighting in an interior setting, for instance retail malls, airports, sports facilities such as stadiums and even schools.
Fabric and membrane structures also give architects and builders limitless options in design. The rise of tensile fabric structures is an emerging construction concept that compliments traditional architectural solutions. Whereas membrane materials are not as widespread as traditional construction materials such as cement, concrete, metal, stone and glass, they nonetheless are an interesting material that has gained considerable use in recent years. The popularity of membranes today is exemplified by structures such as stadiums, exhibition halls, business centers, concert halls, sports facilities, shade roofs to hotel or restaurant entrances, car packing, gas station roofs, airports roofs, bus and train stations, commercial buildings amongst others.