When buying one of our nails or glass rigs, the joint size we list is the actual physical size of the joint. You can see from the diagram above how they fit together. The most popular nail joint sizes and most commonly found are: 10mm, 14mm, and 18mm Male and Female. It is measured in millimeters just like the enail joint sizes: It is what size heating coil fits onto the enail. This is simply the size of the nail where the coil attaches onto. When purchasing an enail, you will be asked to select the coil size nail fitment. New to the game is the Terp Slurper Quartz Enail that utilizes the 10mm flat coil. It is mostly used with a 10mm flat titanium nail or 10mm flat titanium/quartz hybrid nail. This coil is typically used with medium to smaller glass rigs. Users of this heating coil like how the coil is flat, sits underneath the nail bucket, and how it's heating properties work. The 16mm size coil is typically used for customers that like smaller dabs and have a medium size or smaller glass rig. (titanium, titanium hybrid, quartz banger, straight quartz, ect.) It can be used with a large or medium size glass rig. This is the industry standard and most popular size coil on the enail market. The largest variety of nails are offered for the 20mm size coil. The 25mm barrel style of coil still offers a large size nail. They are growing in popularity and the 25mm axial size is the second most popular for enail setups. These are for customers that love big XL dabs from a big nail! These sizes are best used with a large glass rig. They are the largest coils and use the largest size nail buckets. This is very secure and make it so the coil cannot accidentally come off of the quartz enail. The axial heating coil attaches to the axial quartz banger enail with a metal pin clip. It is only available to use with the axial style quartz banger enails. It heats up the enail faster than the normal round barrel style of heating coils. The axial style of heating coil wraps around the sides and also the bottom of the enail for the best heating properties.
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