Pensavo fosse più comoda, per tenerla bene al piede deve essere allacciata ben stretta e dopo una lunga camminata mi ha dato dolore al piede
Description
The bottle is made with an innovative polymer, called Tritan , which makes it resistant, dishwasher safe and above all non-toxic, as it is 100% BPA, BPS and BPF free .
The opening of the cap resembles that of a classic bottle and the spout has an inclination of a few degrees, in this way it is easier to drink directly from the Chute Mag without dripping. As is also the case in our Camelback thermos .
A new magnetic lid will keep the cork in place, preventing it from always ending up "in the middle of the boxes" while you're drinking.
This lid has the same diameter as the bottle. The goal was to create a large opening of the Chute Mag , specifically designed to facilitate both cleaning and filling.
It also has a handle built into the lid, resistant and easy to grip.
Technical characteristics of the CamelBak
- Available in various volumes: 0.6Lt - 0.75Lt - 1Lt
- Material: Eastman Tritan™ Copolyester
- 100% PVC, BPA, BPS, and BPF free .
- Tilt opening for easy pouring/drinking
- Spout circumference suitable for drinking directly from the bottle without spilling
- Hermetic cap
- Magnetic cap lock lid
- DISHWASHER SAFE
Eastman Tritan™ Copolyester: the new non-toxic "plastic" with reduced environmental impact
Tritan is a polymer belonging to the class of co-polyesters, recyclable materials with good resistance and thermal insulation, free of harmful components such as bisphenols (BPA) released by the common polycarbonate for food use.
Tritan was developed by Eastman Chemical and today it is present in many commonly used objects, instead of the classic plastic; it resists shocks and does not deform, it is transparent and brilliant like glass, has a lower density than polycarbonate (therefore, for the same liter volume, it weighs less) and complies with a series of strict international regulations on ecology and food safety.
Its manufacturing process is simple and allows for a reduction in both energy and material consumption.