Spectacular Twisted Mixed-Use Development Resembles Kaleidoscope with Lumiflon

Date: 21/11/2018
Autor: Redaktion
Kategorien: Andere Neuigkeiten

The Light House Apartments in Melbourne, Australia, a joint project between Hengyi and Sixth Grange, is a 500,000 square-foot mixed use development that was designed by Elenberg Fraser. The coating system used to create such a unique aesthetic employ Lumiflon FEVE resin.

The highly-anticipated structure, which was recently completed, gained much attention for its variety of high-tech amenities which include a car parking stacker system, pool, outdoor exercise terrace, and contemporary interior design, fully equipped with breath-taking views of downtown Melbourne.

The building itself is an architectural marvel, a vibrant structure spiralling towards the sky. Architects at Elenberg Fraser describes the building as, "…a twisting helix that seems to defy the laws of physics. Appearing to turn on its trajectory, the building has no corners." They continued, "This three-dimensional kaleidoscope not only twists and undulates on its axis but its facade is a moving object. The effect of constant motion is amplified by the iridescent contrasts of the goniochromism (which change colour perspective)".

The kaleidoscope-like structure was enveloped in Alucobond PLUS aluminium composite material in a custom Spectra finish. Colour-shifting ACM panels project different shades of purple, producing a dazzling effect, further enhancing the building's kaleidoscopic image. The coating system used to create such a unique aesthetic employ Lumiflon FEVE resin. Architectural surfaces that utilize Lumiflon FEVE resin technology provide a plethora of benefits. FEVE-based coatings offer durability and longevity, superior colour and gloss retention in addition to weatherability, which prevents UV radiation, water, and salt from compromising the structural integrity of any coating. Because of the high-performance coating system, the Light House Apartments will remain in pristine condition for decades.