
- 27/04/2017
- Technological materials for furniture
During Milan's Design Week FENIX NTM®, Arpa Industriale's nanotech material, introduces Alchemyx, an exhibition itinerary that narrates its essence of innovative product and creator of value for interior design projects. Inside the upper-deck open gallery of Pinacoteca di Brera, the Nanotech Matt material for interiors, reinterprets the iconic figure of the “wild card“, drawing inspiration from ancient representations hosted in the Milanese museum.
The artists of Van Orton Design (Turin) redesigned the different cards with a “pop“ approach, matching bright and strong tones to the new FENIX NTM colours.
Each jester is dye-sublimation printed on a 4 meter tall FENIX NTM Bianco Kos panel, that highlights the chromatic contrast. The back of each card is transformed into the materic base of tables, design elements made of the nanotech material, depicting the “alchemy process“ that brought them to life. The seven design objects, which are the result of FENIX NTM's partnership with leading companies in the industry, are the work of De Padova, Fritz Hansen, Kristalia, Lapalma, Magis, MDF Italia and Pedrali. The front and the back of the cards are connected through structures that represent the alchemy symbols of water, fire, earth, wind, compound, essence and name.
“The idea is to express the soul of FENIX NTM through the concept of alchemy, intended as an ongoing process of research and innovation“, states Van Orton Design.This way Alchemyx presents FENIX NTM not only as a material, but also as an open system that adds value to the interior design world.
The installation is strengthened by the collaboration with strategical partners such as Sublitex (Miroglio Textile), which made the dye-sublimation print; the architect and designer Lorenzo Palmeri, who designed “Navel“, the first electric guitar made of FENIX NTM and Wood-Skin, which conceived the back of one of the cards, separation screens for the lounge area and a system of acoustic modules, using Arpa’s nanotech material.