Making distillate from shatter is a process used to create a highly concentrated form of cannabis oil. This process involves heating the shatter and then using a vacuum to remove the THC and other compounds from the concentrate. The resulting distillate is incredibly potent, with THC levels as high as 95%. It can be used in various forms such as edibles, topicals, tinctures, waxes, and even vape cartridges. In this guide we will walk you through the steps needed to make distillate from shatter.Shatter and Distillate are two forms of cannabis concentrates. Shatter is a type of concentrate that has a hard, glass-like texture and a semi-transparent appearance. It is created by using a solvent to extract cannabinoids and terpenes from the plant material. Distillate, on the other hand, is an even more concentrated form of cannabis extract that has been further refined to remove any impurities or unwanted components such as fats, waxes, and lipids. Distillate is usually in liquid form and can be vaporized or added to edibles for consumption.
Equipment Needed for Making Distillate from Shatter
Making distillate from shatter requires a few pieces of equipment. The most important are a solvent-resistant container, a heating element, and an extraction tube. To begin the process, the shatter needs to be placed in the container and heated until it liquifies. Once the shatter has been fully melted, the extractor tube can be used to separate the terpenes and other compounds from the cannabinoids. This is done by passing a solvent through the tube that binds with the desired compounds and carries them away. After this process is complete, the remaining liquid can then be collected and used for distillation purposes.
Other pieces of equipment that may be required for making distillate from shatter include a vacuum pump, filter papers, and a condenser. The vacuum pump is used to create a vacuum in order to reduce boiling points which helps ensure all compounds are extracted efficiently. Filter papers are used to filter out any unwanted materials or particles that may have been picked up during extraction. And finally, a condenser is used to cool down and collect the resulting distillate.
Overall
Introduction
Distillate is an increasingly popular cannabis product. It is a highly potent and pure form of cannabis extract that can be used to make edibles, vape oils, tinctures, and more. Distillates are made from a process called “winterization”, which involves freezing and purifying cannabis extract. In this guide, we’ll walk you through the process of making distillate from shatter. This process requires specialized equipment and expertise, so it is best to leave it to the professionals. However, if you are an experienced cannabis processor looking for an extra challenge, this guide will provide you with the necessary information to make your own distillate from shatter.
What Is Shatter?
Shatter is a type of cannabis concentrate that has been extracted using a solvent such as butane or propane. It has a glass-like consistency and can range in color from light golden brown to dark amber depending on the extraction method used and quality of material used. Shatter can contain up to 80% THC by weight, making it one of the most potent forms of cannabis available on the market today.
Preparing The Shatter For The Process
Shatter, also known as BHO, is a cannabis concentrate that is created using butane. In order to achieve the desired consistency, the shatter must be prepared properly before it can be used in any type of process. The process of preparing shatter includes purging the butane from the concentrate, and then cooling it down to a temperature that will allow for easy handling without causing it to break. Once the shatter has been cooled down, it can then be pressed into a uniform shape and stored in an airtight container until needed.
The first step in preparing shatter is to purge all of the butane out of the concentrate. This can be done by heating up the concentrate until all of the butane has been released. Once this has been accomplished, the concentrate must then be cooled down to a manageable temperature. This can be done by placing the concentrate in a freezer or by using a cold water bath. After cooling down, it is important to make sure that all moisture has been removed from the concentrate before storing or pressing it into a shape.
Once all moisture has been eliminated and the shatter has
Decarboxylation Of The Shatter
Decarboxylation is the process of removing a carboxyl group from an organic compound, releasing carbon dioxide. In terms of cannabis concentrates, decarboxylating refers to activating the psychoactive THC in cannabis through heat. This is an important step in making edible cannabis products, such as candies, brownies, and tinctures. Decarboxylation also occurs when smoking or vaporizing cannabis flower or other concentrates like wax or shatter. When using concentrates to make edibles, the decarboxylation process must be done separately in order to achieve the desired potency.
Decarboxylating shatter starts with heating it up over a period of time to activate the THC. This process can be done at a low temperature for a longer period of time to preserve terpene profiles, or at a higher temperature for a shorter amount of time if potency is more important than flavor. Depending on the method used and the starting material, decarboxylated shatter can have different consistencies ranging from sticky and gooey to brittle and crumbly. Shatter that has been decar
Filtration Of The Decarboxylated Shatter
The process of filtration of the decarboxylated shatter is an important step in the production of cannabis extracts. This process helps to remove impurities and other unwanted compounds from the shatter, resulting in a purer and more potent product. Filtering also helps to homogenize the extract, allowing for uniformity in texture and consistency.
The filtration process typically involves passing the shatter through a series of filters with different pore sizes. These filters can be fine or coarse depending on the desired end product. If a finer filter is used, then smaller particles will be removed from the mixture while larger particles will remain in place. On the other hand, using a coarser filter will allow for larger particles to pass through while smaller particles are removed.
Once filtered, it is important to ensure that all traces of residual compounds have been eliminated from the shatter. This can be done by running the filtered shatter through a process known as degassing or vacuum purging. During this process, any remaining volatile compounds are removed