Bulk Melted Diamonds Supplier
Nine Cloud Cannabis produces high purity Melted Diamonds for licensed manufacturers, distributors, and concentrate brands across California. Our Melted Diamond formulations are designed as a reliable cannabinoid base for cartridge oil production, concentrate blending, and infused product workflows that require consistent potency and predictable formulation behavior.
Rather than relying on multi stage distillate refinement, our Melted Diamonds originate from controlled THCA crystallization and fraction separation processes. This allows us to produce a cannabinoid input material with high THC potency and repeatable batch performance.
For manufacturers building scalable product lines, Melted Diamonds provide a flexible alternative to traditional distillate inputs while maintaining strong connections to the original cannabis extract.
CAT 3 Melted Diamonds - $1.80/Gram.
CAT 4 Melted Diamonds - $1.90/Gram.
Distillate - *Inquire for Pricing*
What Melted Diamonds Are
Melted Diamonds are produced by converting crystalline THCA into a liquid cannabinoid phase that can be used as a high potency formulation base for downstream manufacturing.
Because the starting material originates from diamond grade THCA separation workflows, Melted Diamonds retain:
high cannabinoid purity
predictable viscosity when paired with terpenes
compatibility with CDT and HTE fractions
consistent performance across batches
For many operators, Melted Diamonds function as a cleaner and more controllable cannabinoid input than traditional distillate based oil.
How Nine Cloud Produces Melted Diamonds
Our Melted Diamonds are produced through a controlled post processing workflow that begins with hydrocarbon extraction and THCA crystallization.
Following crystallization:
THCA is mechanically separated from High Terpene Extract (HTE)
THCA is crystallized into beautiful diamonds
THCA is melted into a liquid cannabinoid phase
The now Melted Diamonds are poured into jars and readied for sale
This workflow allows us to maintain tighter control over cannabinoid composition before formulation begins.
Because terpene fractions and cannabinoids are handled separately prior to recombination, manufacturers can select the terpene system that best fits their product architecture rather than working around a fixed extract composition.
Melted Diamonds vs Distillate
Many cartridge manufacturers rely on distillate as a default cannabinoid input because it is widely available and easy to standardize. However, distillate quality varies widely. Much of the distillate on the market begins as dark crude oil containing unwanted components such as fats, waxes, chlorophyll, and heavy volatile compounds. It must undergo multiple refinement steps including winterization, filtration, decarboxylation, and distillation to remove these materials before it becomes suitable for formulation.
While these processes produce a high THC output, minor cannabinoids are often stripped, cannabinoid conversion can take place, and the distillate itself can often taste undesireable from unremoved volatiles.
Melted Diamonds follow a different refinement pathway.
Instead of relying on repeated distillation passes to isolate cannabinoids, Melted Diamonds require far less refinement and retain the original cannabinoid profile. This allows manufacturers to begin formulation with a cleaner cannabinoid input derived from diamond grade separation rather than late stage refinement.
For cartridge manufacturers, this difference can provide several advantages:
• More diverse high potency due to presence of minor cannabinoids
• Pure taste
• Lighter, cleaner color
• Predictable product
Because cannabinoids and terpene fractions are handled separately prior to recombination, Melted Diamonds allow manufacturers to design vape formulations with greater control over both potency architecture and flavor composition.
For brands moving beyond traditional distillate cartridge workflows, melted diamonds provide a stable cannabinoid base that integrates naturally with cannabis-derived terpene systems while maintaining consistent batch performance at scale.