China ISO5658 Imo Flame Propagation Tester for Thermal Radiation, Find details about China ASTM E 1317, ASTM E 1317 Tester from ISO5658 Imo Flame Propagation Tester for Thermal Radiation
ISO5658 IMO Flame Propagation Tester for Thermal Radiation
Introduction:
IMO flame propagation tester for building materials, high-speed train materials and ship materials. It measures the flame propagation speed, ignition heat and total heat release according to distance and CEF (critical heat radiation flow).
This test method is used to evaluate the combustion characteristics of vertically mounted test objects according to ISO 5658-2 and IMO res.653.At the same time, GB/T 28752-2012 flame transverse spread test method on vertical surface was also met.The test object is exposed to the appropriate heat dissipation area given the fuel combustion type of the radiator plate, and the signal value is measured in mV using a calibrated thermocouple when the combustion occurs.In addition, the ignition time is recorded and the flame burning time of the measured object is recorded according to the distance of the test object, as well as the flame spreading speed.Other test items include ignition heat (MJ/m2), heat from continuous combustion (MJ/m2), critical heat flux (kW/m2), average heat from continuous combustion, and total heat dissipation (kW).
Standard:
• ISO 5658-2 : Reaction to fire tests -Spread of flame - Part 2 Lateral spread on building products in vertical configuration
• IMO Resolution A. 653(16): Recommendation on fire test procedures for flammability of bulkhead, ceiling and deck finish materials
• ASTM E 1317 : Standard test method for flammability of marine surface finishes
Specificaiton:
1. Rail for easily measuring heat flux of radiant panel at an interval of 50mm.
2. IMO Program to facilitate all calibrations and tests as well as to printout of results by standards (IMO, ISO).
3. Radiant panel temperature controller: Equipment to prevent flame back toward the back side of Radiant panel, check the internal temperature of radiant panel and automatically block gas sol. v/v in case of flame back-flow.
4. MFC (Mass Flow Controller) to easily measure the heat amount of methane gas in measuring critical heat flux.
5. Explosion-proof options of all control systems for safety in combustion in radiant panel as well as Check-Valve and its Gas shut-off valve (Solenoid Valve) to prevent back-flow in gas line.
6. Camcorder to observe and save test conditions in a program during tests.
Size | 1,650 (w) × 810 (D) × 1,985 (H) |
Power | 220 V AC, 60 Hz, 10 A |
Weight | 300 kg |
Exhaust | 0.01 m2/s |
Utilities | Propane Gas, Methane Gas, Acetylene Gas, Compressed Air |
Features:
1. All control systems are explosion-proof.
2. Air Cylinder type of Pilot Flame Burner allowing the flame impingement test method based on IMO to be automatically performed.
3. Double grid to see spread of flame length as well as enlarged Restrict View Mirror for easy observation.
4. DAQ Program for applying spread of flame length and combustion characteristics to image storage.
5. 19" Analysis Rack for measuring spread rate of flame, critical flux, and heat release rate.
6. IMO Program available of controlling Air Blower to facilitate change in amount of combustion-heat in Radiant Panel Calibration (for measuring heat release rate by each section of radiant panel.
7. Program for blocking gas supply in failure of ignition in radiant panel, in which Flame Relay System detects
Test Result:
• Heat for sustained burning (MJ/m2)
- It is gained by multiplying time, which ranges from the initial exposure of test object to arrival of flame-tip in each point, by radiant heat flow penetrated against nonflammable calibration panel in the same point.
• Average heat for sustained burning (MJ/m2)
- It is an average of characteristic values measured in individual positions by continuous sustained heat. The characteristic value is measured in continuous position at an interval of 50 mm from the initial 1500mm to the final position or 400 mm, whichever is lower.
• Heat for ignition (MJ/m2)
- It is gained by multiplying time, which ranges from the initial exposure of test object to arrival of flame-tip in a point of 150 mm, by heat flow of this point. (However, heat flow is gained by pre-calibration of test equipment.)
• Critical flux at extinguishment (kW/m2)
- It means heat flux in the location where flame spreads to the farthest distance from the center line of combusting test object. The heat flow is gained by performing calibration test of tester using calibration panels.
• Total heat release (MJ)
- It means total heat release during test period.
• Peak heat release rate (kW)
- It means peak heat release rate during test period.