Marc Newson Tritan Wine
Marc Newson Tritan Wine
Marc Newson Tritan Wine
Marc Newson Tritan Wine
Marc Newson Tritan Wine
Marc Newson Tritan Wine
Marc Newson Tritan Wine

Marc Newson Tritan Wine

Regular price $ 10.00 AUS

The Marc Newson Tritan™ Drinkware Collection is the result of a collaboration between designer Marc Newson and engineer Robert Wilson. Their shared vision was to create “the most glass-like, the most beautiful, the most user friendly and the highest quality unbreakable drinkware range available in the world”.

Known for his work with brands such as Apple, Qantas and Louis Vuitton among countless others, Marc Newson is one of the world’s most influential and sought-after designers. His unique design language is evident in the minimalist curves and pop colours of this drinkware Collection; a range that is as beautiful as it is functional.

As a keen outdoor enthusiast, Robert Wilson has engineered a uniquely robust range that is designed for maximum reuse in even the toughest of conditions.

The design values have been recognized by the range being a recipient of both a Red Dot Design Award (Germany) and a Good Design Award (Australia). The Red Dot Award is probably the most difficult to win and prestigious design prize. It is awarded by the Design Zentrum in Essen, Germany.

With all pieces available in a choice of six colours (including glow-in-the-dark green), you can mix and match to create your own personalised collection.

The Marc Newson Collection is made in Palm Outdoor Australia’s facility in Melbourne, Australia, under quality standards ISO9001:15 and ISO14001:15 (environmental).

Beautiful

  • Iconic Marc Newson Design
  • Red Dot Award and Good Design Award winning design
  • Coloured base 

Functional

  • Non-slip base
  • Stable
  • Glass-like clarity and weight
  • Tumblers Stack securely without sticking
  • Scratch resistant

Sustainable           

  • Long-life – industry leading 10 year unbreakable guarantee for private use
  • 100% recyclable
  • BPA-free Tritan
  • Tritan has low embedded energy and Palm’s process is low energy.