Freemax GEMM Disposable Mesh Tank (x2)
The GEMM disposable tanks from Freemax have built-in, non-replaceable coils which come in six resistance variations and the vape tank has five colour options to choose from.
Tanks are constructed from durable PCTG which is heat resistant, durable and recyclable but please note before you recycle of your tank you'll need to remove the vape coil using a pair of pliers.
Disposables are convenient and less messy than just changing a coil but the wastage involved is a matter of debate amount the vaping community.
FreeMaX with their patented 90% Tea fibre 10% Cotton blend are masters of creating insane flavour, and thanks to the tea fibre, the coils wick nice and quickly so that you can get back vaping.
Filling the tank is simple, just remove the silicone stopper at the top, insert your chosen vape juice with a fine-tipped bottle into the tank, replace the stopper and let it stand for 5-10 minutes to ensure saturation and avoid dry hits or coil burn.
FreeMaX GEMM Disposable Tank Spec:
- 25mm Diameter
- 2mL vape juice capacity
- Food-Grade PCTG Plastic Construction
- Top Fill System with Silicone Stopper
- Integrated Coil Series (See Spec Below)
- Dual Bottom Airflow System
- 510 Connection
FreeMaX G Series Coil Specs:
G1 0.15ohm resistance
Single Mesh Coil
40-80W (70W recommended)
*When selecting your preference, choose your colour and then the resistance from the dropdown as some colours may have more resistance options than others.
DELIVERY AND RETURNS
How do I get free UK shipping?
We offer Free Shipping in the UK on orders over £20 after any discount coupon has been applied.
For more details on Vaping.com shipping, please visit our shipping information page
What if I need to send something back?
We want you to be completely happy with your purchase and that's why we accept returns within the first 30 days from purchase. Full details can be found on our returns page
If you have any questions, please contact us at firstname.lastname@example.org
|Number per pack||2|
|Tank Capacity||2 ml|