| Hashish Temperature(C) |
Physical appearance of the hashish |
Odour of the hashish |
Reaction of hashish constituents |
| 62 below 0 up to 0 |
Very hard Hash with glassy surface. Rigid. Shatters readily. |
No odour. Store for long period. |
Melting point of most volatile liquid terpenoids. |
| 1 -15 |
Very hard Resin block with glassy surface. Rigid. Shatters readily. |
Almost no odor. |
Melting point of most volatile liquid terpenoids. |
| 16 - 20 cool room temp |
Hard and Solid. snaps when bent. |
Slight musty marijuana odor. |
Melting point of most volatile liquid terpenoids. |
| 21-25 normal room temp |
Flexes reluctantly when slowly bent. Hashish snaps readily when quickly bent. |
Moderate skunky odor. |
Melting point of most volatile liquid terpenoids |
| 26-30 warm room temp |
Flexes readily when slowly bent. Snaps readily when quickly bent. |
Moderate skunk odor. |
Melting point of most volatile liquid terpenoids. Melting point of most volatile solid terpenoids. |
| 31-38 hot climate |
Flexes when bent. Will sometimes snap when bent quickly |
Strong hashish odor. |
Flash point of most volatile terpenoids. Melting point of average monoterpenoids. Melting point of volatile solid terpenoids. |
| 39 body temp |
Hash Flexes when bent. Will not snap when quickly bent. |
Strong rich odour. Soon becomes stale. |
Flash point of most volatile terpenoids.Melting point of volatile solid terpenoids. |
| 40-45 very hot climate |
Hash Flexes when bent. Will not snap when quickly bent. |
Strong rich odour. Soon becomes stale. |
Flash point of most volatile terpenoids.Melting point of volatile solid terpenoids. |
| 46-50 warming |
Individual resin glands begin to melt together and the hashish surface begins to look moist. |
Light sweet and fruity cannabis aromas in addition to the strong and rich odor. |
Flash point of volatile terpenoids. Melting point of volatile solid terpenoids. 50% of THC-acid decarboxylates in the first minute. |
| 51-75 warming |
The individual resin glands melt and become liquid. |
More Cannabis flavors and aromas are released as more different cannabis compounds begin to vapourize. |
Flash point of volatile terpenoids. Melting point of less volatile solid terpenoids. Melting point of CBD. All of THC-acid decarboxylates to active THC. |
| 76-100 |
Warming The liquid resin begins to boil on the surface. |
The remainder of the terpenoids begin to vapourize . Maximum Flavor. Small amounts of THC begin to Vaporize. |
Flash point of least volatile terpenoids.Melting point of average sesquiterpenoids. Boiling point of most Volatile terpenoids. Melting point of CBN. |
| 101-200 warming |
Liquid Cannabis Resin continues to boil and begins to darken. |
Most of the terponoids are boiling off. |
Melting point of least volatile solid terpenoids. Boiling point of average volatile terpenoids. |
| 201-300 warming |
Liquid Resin continues to boil and begins to darken. |
Most of the terponoids have boiled off, flavor and aroma are reduced. |
Boiling point of least volatile terpenoids. Boiling point of THC. |
| 301-400 heating |
Liquid Resin continues to boil and begins to darken. |
Most of the terponoids have boiled off, flavor and aroma are reduced. |
THC continues to boil off. |
| 401-500 heating |
Surface dries out, stops bubbling, and begins to burn. |
No flavor and aroma remain. |
All THC and terpenoids are boiled off. |
| above 500 complete combustion |
The resin blackens and turns to ash. All contaminants are burned |
No flavor and aroma remain. |
All terpenoid residues burn up and leave almost no ash. |
