A.H. Beard Origins Mattress Collection


A.H. Beard Origins Mattress Collection

A.H. Beard ‘Origins’ is a mattress range designed with sustainability at its core. Every component, every process, every partner has been carefully considered and selected based on their sustainability and ethical sourcing credentials.

A.H. Beard has partnered with like-minded businesses who are committed to sustainable innovation, and selected materials that are not only good for sleep but are sustainably grown or produced and 100% recyclable. The range features the world’s first 100% recyclable pocket spring support system; wool – which is naturally temperature regulating; and fabrics made from Tencel® and organic cotton. Each mattress is hand-sewn and secured with cotton tufts attached with Kevlar® reinforcing. This glue-free construction makes it easier for the various components to be separated for recycling at end-of-life.

A.H. Beard has endeavoured to source local components wherever possible, inlcuding single source Australian, wool and cotton to support local industry and communities. As a fourth-generation Australian family-owned business, A.H. Beard is committed to securing ongoing employment for its over 400 team members for years to come. Bucking the trend of increased automation, the handmade nature of the Origins mattress collection has resulted in expansion and upskilling of the A.H. Beard workforce. A.H. Beard also has product stewardship scheme to take back the product after used.


GreenTag Downloads:

Download Product Health Declaration (PHD)

Certified under:

Global GreenTag Standard v4.0

Rating tools relevance:

WELL V1.0 Features- IWBI
• Feature 97 Material Transparency Part 1 Material Information

WELL V2.0 Features- IWBI
• X07 Material Transparency (PHD™ available)
• X08 Material Optimisation (PHD™ available)

LEED® v4.0 and V4.1 Rating Tool Credit:
MR Credit: Building Product Disclosure and Optimisation -
Material Ingredients - Option 1 - Material Ingredient Reporting and Option 2 - International ACP - REACH Optimization