Application:
UL910 covers the test method for determining values of flame-propagation distance and optical smoke density for electrical and optical-fiber cables that are intended to be installed in ducts, plenums, and other spaces used to transport environmental air without the cables being enclosed in raceways in those spaces.
UL910/NFPA262 Steiner horizontal tunnel furnace is mainly used for the flame retardant performance test of CMP grade wire and cable. It is mainly used for cables in horizontal subsystems that are directly laid in ventilation or forced ventilation without metal pipelines. The flame retardant test standard represents the most stringent flame retardant test standard for UL and even the entire wire and cable flame retardant test. Only the fluorine material sheath cable can pass the flame retardant test method. Due to the high decomposition temperature of fluoroplastics (greater than 400 degrees), the ignition point is also high (800 degrees or more), and it is not easy to burn when the fire is not strong, so it has better fire resistance than other organic materials.
The purpose of this test is to determine whether the flame-propagation and smoke-generating characteristics of cables without raceways are within the limits specified in the National Electrical Code (NEC). Cables having adequate fire-resistant and low-smoke-producing characteristics need not comply with general wiring methods when the cables are installed (without raceways) in environmental-air ducts, concealed hollow building spaces used as ducts for environmental air, and other environmental-air-handling spaces not specifically excluded (areas involving grease and flammable dust, vapor, and the like). This test method is essentially the same as the test method described in the Standard Method of Test for Fire and Smoke Characteristics of Wires and Cables, NFPA 262.
Standard:
According to NFPA 262 UL910
Fetures:
1.The fire test chamber is exactly the same as that of UL fire lab.
2.The fire test chamber is a rectangular horizontal duct with a removable lid.
3.The sides and base of the chamber are lined with an insulating firebrick.
4.One side of the fire testing chamber is provided with double quartz observation windows with the inside pane flush mounted.
5.Multiple windows are located along the tunnel so that the entire length of the test sample is observable from outside the fire chamber.
6.The lid is consist of a removable noncombustible metal and mineral composite structure.
7.The lid covers the fire test chamber and the test samples maintains in an unwarped and flat condition.
8.Two NFP elbow gas burners delivering flames upward against the surface of the test samples.
9.Remote spark ignition mode, to ensure the safety.
10.An air intake shutter is located upstream of the burner.
11.Six refractory firebricks along the side walls of the chamber for proper combustion.
12.The static pressure meter inserted through the top at the midwidth of the tunnel below the ceiling.
13.The exhaust end is fitted with a gradual rectangular-to-round transition piece.
14.The exhaust duct is insulated with high temperature mineral composition material.
15.An exhaust fan is installed at the end of the exhaust duct.
16.The air flow and draft pressure are controlled by automatically damper and Frequency converter.
17.A photometer system consisting of a lamp and photocell mounted on a horizontal section, and with the light beam directed upward along the vertical axis of the vent pipe.
18.Thermocouples installed inside and outside the floor of the test chamber.
19.Data acquisition system and software.
Technical parameters:
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Ambient Temperature
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Operating 15°C to 35°C.
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Utility
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Crane
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Electrical
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380 Volts AC, 20KW
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Gas
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Methane and air compressor
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Dimension
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21300 mm (L) x 1100 mm (D) x 2100 mm (H)
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Weight
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1770kg
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Standards:
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NFPA 262 UL910
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