This article talks about wax vs shatter; which one of them is a better choice. These are both products that are used in the process of detailing cars. Wax generally lasts longer or offers more durable results, whereas shatter does not last as long – however, both products create a shiny look for your car’s paint job!Wax is a form of cannabis concentrate. It can be consumed via a vaporizer or dab rig, and it has a higher concentration of THC. Shatter is also a form of cannabis concentrate. It tends to be more brittle than wax, but it can be used with an e-nail or dab rig.
Wax is typically made with medium-chain triglyceride (MCT) oil, while shatter is usually made with either butane or propane as the solvent to make the extractions. Both types of cannabis concentrates are fast-acting and can provide an intense high if consumed in large doses.Shatter requires more time to set up than wax because it needs to harden before being handled without breaking into pieces (this process takes about 10-15 minutes).
What is wax?
Wax is a form of concentrate that has become increasingly popular in recent years. It differs from shatter in that it contains lower levels of THC and is softer than other forms of concentrates, like shatter or budder (which are more common for use in dabbing). Wax comes in many different flavors, which can be appealing for those who don’t want to deal with the taste of the concentrate itself. For those looking for pain relief, the wax may not be as effective as other forms because it does not provide as high levels of THC.
What is shatter?
Shatter is a cannabis product that is typically more potent than wax or oil. The shatter is made by extracting the resin from the plant material with butane, cooling it, and breaking it into small pieces.
Shatter extraction can be either water or solvent-based. The solvent is usually butane, although other solvents like ethanol can be used. The process starts with bringing the bud material to high heat, either by using an oven or heating it with a butane torch. This causes the plant matter to release its oils into the air in gaseous form, ending up in the boiling pot of solvent (e.g., butane) for capture and purification.