Cork Massage Ball
Cork Massage Ball
Our cork massage balls are the perfect way to get out those really stubborn knots.
Think of them as your own personal masseuse! A great, sustainable alternative to traditional plastic trigger balls.
Made purely from natural cork + food-grade, non-toxic binding agent
Naturally anti-microbial and impermeable to liquid
6.5cm x 6.5cm x 6.5cm
Lightweight at 0.05kg
Designed in Australia, made in China.
Use indoors on a hard, flat surface
To clean, spray with lemon water and wipe with a dry cloth
Exercise recovery tools have traditionally been made out of PVC plastic and EVA foam. PVC and EVA are derived from crude oil and are extremely difficult to recycle.
Cork on the other hand is 100% natural and 100% biodegradable. The process of harvesting cork is in fact regenerative. Stripped cork trees actually absorb 5 times more CO2!
Cork is the perfect companion for exercise recovery as it’s naturally anti-microbial, impermeable to sweat & super firm.
When we exercise, microscopic tears occur within our muscles. This is healthy and expected, and it is in healing these tears that our muscles grow and develop. However, for healing to occur, we require the proper recovery routine – rest, diet and active muscle massage (self-myofasical release).
Our plastic-free packaging
We are committed to reducing our carbon footprint through sustainable packaging. All retail orders (and small wholesale orders) arrive wrapped in recycled tissue paper, plastic-free tape and best of all, comPOST Packs from our friends at Better Packaging Co. This means our packaging is made from 100% biodegradable and compostable materials PLUS it looks pretty damn good too!
Disclaimer Sure Project Melbourne Pty Ltd is not a licensed medical care or physiotherapy provider and strongly recommends that you consult with your physician before commencing to use any of our products.
Cork is a natural product, this means that the colour and grain of each roller may vary slightly and products may have small imperfections that do not affect functionality.