Tensile
structures have been used for millennia. When indigenous peoples required
shelter that was lightweight and structurally sound, fabrics made from animal
hides and easily transportable elements were the most viable solution. At the
Roman Colosseum, a retractable Velarium provided shading for a more comfortable
spectator experience. Now, ethylene tetrafluoroethylene (ETFE) is offering new
opportunities.
A relatively new
product within the industry, ETFE is a
fluorine-based plastic that remains strong across a wide range of temperatures
and is highly resistive to corrosion. It was developed from
polytetrafluoro-ethylene (PTFE)—also known as Teflon—a strong, lightweight,
fire-retardant fabric membrane that was originally formulated for space
exploration apparel, but later used for architectural applications and
transparent envelopes.
What is ETFE?
While glass structures provide comparable sunlight transmission and insulation, ETFE is highly durable, more transparent, and significantly lighter—it is approximately one percent the weight of glass. Initially used in agricultural applications, ETFE has since been used on high-profile projects such as the Eden Project botanical attraction (Cornwall, England), the Allianz Arena (home to soccer’s FC Bayern Munich), and the Beijing National Aquatics Center—the famous Water Cube featured at the 2008 Summer Games. ETFE film is now considered a premium material for transparent cladding applications ranging from roofing to façade construction to traditional skylight applications to long-span structures.
While glass structures provide comparable sunlight transmission and insulation, ETFE is highly durable, more transparent, and significantly lighter—it is approximately one percent the weight of glass. Initially used in agricultural applications, ETFE has since been used on high-profile projects such as the Eden Project botanical attraction (Cornwall, England), the Allianz Arena (home to soccer’s FC Bayern Munich), and the Beijing National Aquatics Center—the famous Water Cube featured at the 2008 Summer Games. ETFE film is now considered a premium material for transparent cladding applications ranging from roofing to façade construction to traditional skylight applications to long-span structures.
Few building
materials can match ETFE for its design flexibility and performance value. For
China’s Nantong Park Bon-Garden Greenhouse, the material’s thermal performance
and light transmission properties support thriving horticulture while still
achieving a unique illuminated dome design. At Empire City Casino at Yonkers
Raceway in New York, a porte-cochere with a 1020-m2 (11,000-sf) pneumatic ETFE film
roofing system showcases the material’s ability to meet the unique aesthetic
and practical needs—providing not only an eye-catching design element, but also
shelter and shade for occupants with high expectations for comfort.
ETFE is also one
of the most lightweight and transparent cladding materials available. Due to
its low coefficient of friction, neither dust nor dirt sticks to it. As it is
ultraviolet (UV) transparent, it neither discolors nor structurally weakens
over time. A highly sustainable product, the manufacturing byproducts of ETFE
can be remolded into new ETFE products such as tubing components, wires, or
castings.
At Nanton Park Bon-Gardens Greenhouse in China, a
roofing assembly that includes ethylene tetrafluoroethylene (ETFE) film’s
performance values contribute to thriving horticulture and an iconic aesthetic.
Performance
characteristics
ETFE film brings in numerous benefits for occupants and the building owner. The film can be between 90 and 95 percent transparent, allowing for UV transmission and photosynthesis for agricultural applications. The solar performance ranges of ETFE film systems are also flexible, as they can incorporate multiple frit patterns on one or multiple layers.
ETFE film brings in numerous benefits for occupants and the building owner. The film can be between 90 and 95 percent transparent, allowing for UV transmission and photosynthesis for agricultural applications. The solar performance ranges of ETFE film systems are also flexible, as they can incorporate multiple frit patterns on one or multiple layers.
Standard or
custom printed patterns and a range of colors can be applied during the
extrusion process to provide design continuity with the rest of the structure
and contribute toward solar control properties. ETFE films
are also extremely elastic. Up to 600 percent at breaking point, they are still
structurally resistant. The tensile strength at the limit of elasticity/plasticity
is 21 to 23 N/mm2 (3045 to
3335 lbf/si), but tensile strength to breaking point is 52 N/mm2 (7542 lbf/si). For the structural
calculation, a limit of 15 N/mm2(2175 lbf/si) is considered a conservatively realistic
estimate.
ETFE does not
degrade under exposure to environmental pollution, UV light, harsh chemicals,
or extreme temperatures, making it an exceptionally long-lasting material. ETFE
film also has about 70 percent acoustic transmission, making it ideal for
projects expecting loud noises. During design development, sound transmission
should be considered, as it will indeed transmit sound beyond the ETFE system
and to nearby adjacent properties.
From the
extruding of the film to transportation to the site, ETFE is
sustainable and energy-efficient. Compared to other cladding materials, the
design-build process leaves a small carbon footprint. ETFE systems comprise
materials with low embodied energy that are demountable and recyclable. The low
softening temperature of ETFE film makes the process of recycling the film
efficient and economical. ETFE also enhances insulation and daylighting,
contributing to the building’s global energy efficiency. It is also
exceptionally lightweight compared to competing materials, allowing
substructure support systems and concrete foundations to be designed more
efficiently and cost-effectively, contributing to a reduced carbon footprint.
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