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Cable Flame Test |
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UL
Flammability Test |
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TEST |
BTU/hr - Locations |
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UL 1581 (VW-1) |
Bunsen Burner |
Residential &
Non-residential in Conduit |
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UL 1581 (Vertical Tray) |
70,000 (IEEE 383) |
General Purpose |
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UL 1666 (Vertical Chamber) |
527,500 |
Riser and General Purpose |
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UL 910 (Steiner Tunnel) |
320,000 |
Plenum, Riser, General
Purpose |
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UL VW-1 Vertical Wire Flame Test |
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The purpose of the UL VW-1 Vertical Wire Flame Test is to
screen out flammable wires. The ignition source is small (under 1 kW) and is
applied for only 75 seconds. |
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In the UL VW-1 Flame Test, a tirrill burner (similar to a
Bunsen burner) is used as the ignition source. The wire sample is mounted
and the flame is applied for 15 seconds and then removed. The flame is then
reapplied, either after 15 seconds or when the sample ceases to flame
(whichever is longer), for a total of five 15-second applications. After the
above procedure is completed, a wire sample that passes this test must not
burn for more than one minute and must not burn more than 25% of the Kraft
indiciator flag. In addition, the surgical cotton at the base of the burner
must not be ignited. |
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IEEE 383 Vertical Flame Test |
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The Institute of Electrical and Electronic Engineers (IEEE)
has established IEEE-383, "IEEE Standard for Type Test of Class IE Electric
Cables, Field Splices and Connections for Nuclear Generation Stations".
Although originally intended for cables essential for emergency operations
in nuclear power plants, this test procedure is used for other non-nuclear
installations. |
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In the IEEE-383 fire test cables are supported by a one-foot
wide vertical rack eight feet high. The cables are positioned in the center
six inches of the rack, spaced one-half cable diameter apart. The rack is
centered in an eight foot cube enclosure recommended by Underwriters
Laboratories, a ten inch ribbon burner fuel with an air-propane mixture
ignites the cable with a 21 kW (7,000 Btu/hr) flame. The burner is
positioned 2 feet above the floor and 9 to 12 inches of cable are exposed to
the direct flames for 20 minutes. Cables on which flame extends above the
top of the 8 foot rack fail this test. |
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NELPIA (ANI) test is a (21,000 BTU/hr) vertical flame test
corner configuration test. |
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Vertical-Tray Flame Test (210,000 BTU) ICEA T-29-520 |
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Similar to 70,000 BTU per hour test but heat source increased
to 210,000 BTU per hour. |
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Factory Mutual Cable Fire Propagation Test |
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A unique test standard whereby a Fire Propagation Index (FPI)
is determined based upon a combination heat release and ignition test. The
FPI is used to determine a 1, 2, or 3 Group rating. The lower Group ratings
are the better performing cables. |
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This test chamber is an eight by four simulated shaft, twelve
feet high between the source of ignition and the floor above. A very large
propane burner, 145 kW (495,000 BTU/hr) is ignited for a period of 30
minutes. Flames must not extend above the 12 foot mark if the cable is to be
UL Classified for this duty. |
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UL-910 Plenum Test |
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A plenum is defined as any space used as part of an
air-handling system. This includes heating/air-conditioning ducts and air
returns, which frequently include the space between suspended ceilings and
the floor above in modern office buildings. The National Electric Code (NEC)
requires that exposed cables (those not in conduit) in plenums be listed as
having adequate fire-resistant and low-smoke producing characteristics..." |
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A "Standard For Test Method for Fire and Smoke
Characteristics of Cables Used in Air-Handling Spaces", was developed by
Underwriters Laboratories (UL) to classify cables for this NEC requirement.
This test is performed in a 25 foot Stein - Tunnel test furnace (also
specified in ASTM E-84 test for building materials). Designed to match the
rigors of the application, this test is quite demanding. |
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In the UL-910 test, a single layer of 24 foot lengths of
cable are supported by a one foot wide cable rack, which is filled with
cables. The cables are ignited by an 88 kW (300,000 BTU/hr) methane flame.
Flame spread is aided by a 240 ft/minute draft. During the 20 minute test,
flame spread is observed through small windows spaced one foot apart. Smoke
is measured by a photocell installed in the exhaust duct. |
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To qualify, cables must have a flame spread of less than 5
feet beyond the end of the 4-1/2 foot ignition flame, a peak optical density
of 0.5 maximum (33% light transmission) and a maximum average optical
density of 0.15 (70% light transmission). |
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