-Nice try at correcting me, next time get the quote right sunshine.
-Most gunsafes are NOT UL Fire tested, As there is NO UL FIRERATING FOR GUN SAFES........... they are RSC tested , which has nothing to do with fire rating.
-The fire ratings on almost every safe are a joke, and way under the heat curve of most house fires
-AMSEC makes about 6 different Gun Safe lines... and 4 of them are Shit.... Unless you have a BF or HS series, they are just as bad as the shit that Liberty/Cannon/and the rest of overpriced tin can companies put out.
-You say the information I put out and refer to "is likley the best on anything I have seen", yet you are trying to discredit me somehow......
-You never said WHAT AMSEC safe you had...
Well, first off, thank you for calling me sunshine, so sweat of you.
Let me show you something off UL website:
Fire Ratings Explained
U.L. FIRE RESISTIVE RATING
CLASSIFICATION
THE FOLLOWING IS AN EXPLANATION OF THE UNDERWRITER’S LABORATORIES’ FIRE RESISTANT CONTAINER TESTING PROCEDURES ON THE CLASS 350°F, ONE HOUR AND TWO HOUR FIRE LABELS.
U.L. Label/Class 350°F-one hour and Class 350°F-two hour. The safe will maintain an interior temperature less than 350°F when exposed to fire for a period of one hour at 1700°F or for a period of two hours at 1850°F. Safe must successfully undergo all other requirements for the Fire Endurance Test, Explosion Hazard Test and the Fire/Impact Test as stated below.
FIRE ENDURANCE TEST
After heat sensors and paper are placed inside the safe, the unit is locked and exposed to a uniformly distributed fire. The furnace is regulated to reach a maximum temperature of 1700°F for a period of one hour, or 1850°F for two hours, then allowed to cool without opening the furnace. The interior temperature is recorded throughout the test and during the cooling period until a definite drop is shown and must never exceed 350°F.
Once cooled, the unit is opened and examined for usability. The units locking mechanisms and parts fastenings are examined for security and the interior examined for visible evidence of undue heat transmission.
EXPLOSION HAZARD TEST
The safe is locked and placed into a furnace preheated to 2000°F. This temperature is maintained for 30 minutes (2 hour test is 45 minutes) and if no explosion results, the unit is allowed to cool without opening the furnace doors. Once cooled, the unit is opened and examined for usability. The units locking mechanisms and parts fastenings are examined for security and the interior examined for visible evidence of undue heat transmission.
FIRE IMPACT TEST
(MANUFACTURER’S OPTION)
After the explosion hazard test the safe is removed from the furnace and within two minutes is dropped 30’ onto a riprap of brick on a heavy concrete base. After impact the unit is examined for deformation, rupture of parts, damaged insulation and any other openings into the interior of the unit. Once cooled, the unit is inverted and reheated to 1550°F for a period of 30 min. (2 hour test: 45 min. at 1638°F).
Once cooled, the unit is opened and examined for usability. The units locking mechanisms and parts fastenings are examined for security and the interior examined for visible evidence of undue heat transmission.
____________________
With that UL doesn't test fire rating on safes that are sheetrock lined, that is typically done by the company that manufacturers the safe.
As far as if I mucked up your quote, I don't really give a rat ass.
