High-Grade HCFSE THC Diamonds – Crunch Berries
High-cannabinoid full spectrum extract (HCFSE) is a hash oil product that features exceptional flavours and aromas, creating a complex combination that titillates all the senses. Fairly new to the concentrate universe, many experienced consumers consider weed diamonds, or High-Grade HCFSE THC diamonds, to be the holy grail of concentrates. These diamonds pack a punch and are the strongest form of concentrate available, often reaching between 99%-100% potency. On its simplest level, these diamonds are made by extracting the non-psychoactive THCa compound from the cannabis plant, then isolating and concentrating it to create the “diamond” crystal. Because TCHa is not psychoactive in nature, combustion is required to turn the THCa into THC, most frequently by dabbing the crystals. THCa diamonds also contain no terpenes, which is the reason many manufacturers choose to add terp sauce drizzles or coating to the diamonds. The result is a high flavoured, super intense dabbing experience that is not for the inexperienced consumer, or the faint of heart. Introducing to everybody High-Grade THC Diamonds – Crunch Berries.
Crunch Berries, also known as “Crunchberry,” “Captain Crunch,” or “Crunch Berry Kush,” is an indica dominant hybrid (70% indica/30% Sativa) strain created through crossing the classic OG Kush X an unknown berry strain. This bud is infamous for its flavour that is said to be exactly like Crunch Berries cereal! It has hints of sweet berries and candy with a touch of vanilla and a candy-like aftertaste that sticks to your tongue for hours after you toke. The aroma is slightly spicy although still very fruity and berry in nature with touches of earth and pine. The high is great for feeding you creative inspiration as well as easing away any racing or painful thoughts. With these effects and its moderately high 15-16% average THC level, Crunch Berries is often chosen by patients who suffer from conditions such as chronic pain, anxiety or stress, insomnia, and appetite loss.