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Phone: 0903042747 (contact: 24/7)  –  0286 2727 095 (Work-time: 8 a.m – 5:30 p.m)

Radiant Flooring Panel Apparatus

  • ISO 9231-1 - Thử nghiệm khả năng bắt cháy bằng bức xạ nhiệt

Radiant Flooring Panel Apparatus

Thông số cơ bản

Tiêu chuẩn: BS EN 13501-1 2007 + A1 2009; EN ISO 9239-1; ASTM E648; DIN 4102-Part 14
Ứng dụng: As the basis of the response of flooring materials to the Euroclass system fire resistance tests. Test measuring the flame propagation of a specimen, under thermal exposure conditions, using a radiant ignition source.
Công nghệ phân tích: Heat radiation flammability test
Model: Radiant flooring panel apparatus

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The EN ISO 9239-1 Radiant Flooring Panel test is the cornerstone of the flooring materials reaction to fire tests in the Euroclass system. The test measures the spread of flame of the sample, under thermal exposure, using a radiant heat ignition source. The thermal exposure is that of a fire growing in the room of origin that through a door opening, radiates onto the floorings in an adjacent room or corridor. It is relevant to classification of the flooring material into classes A2FL, BFL, CFL and DFL as set out in BS EN 13501-1 2007 + A1 2009. EN ISO 9239-1 applies to floorings. The apparatus can also be used for tests to standards ASTM E648 and DIN 4102; Part 14.

The test chamber consists of a support frame covered with polished stainless steel panels. The resulting test chamber is insulated with calcium silicate insulation board and is provided with a temperature resistant observation window. The stainless steel sample support assembly is mounted on a sliding platform to allow safe and easy loading of the test sample.

A ceramic porous radiant panel complete with mass flow instrumentation with fine adjustment for the gas and air supplies. The control system regulates the flow rates to ensure a constant air gas mixture, which is very important in achieving a constant heat flux profile during the test. Safety instrumentation is also included.

Specification & Features

  • Chamber and Exhaust system (thermocouples included)
  • Dummy calibration specimen with holder, calibrated heat flux meter and mounting
  • Sliding sample holder assembly for easy and safe loading of samples
  • Gas fired porous ceramic radiant panel assembly
  • Mass flow gas controllers with fine adjustment for the gas and air supply to the panel
  • A calibrated Optical Pyrometer to read surface temperature of radiant panel(option)
  • Elapsed timer
  • White Light attenuation system for smoke density measurement, according to DIN 50055
  • A propane pilot burner assembly
  • Exhaust hood and extraction duct, complete with fan
  • Data Acquisition System consisting of:
    • Personal computer with TFT monitor(configured for English)
    • Data Acquisition Hardware and cabling
    • Display and reporting of test data and measured values according to the test method
    • Microsoft Windows XP/Vista compatible software
  • Documentation(all in the English language) consisting of:
    • Certificate of conformity
    • Calibration Certificate for Heat Flux meter
    • Calibration Certificate for Pyrometer
    • Full Operation Manual

Technical Data & Requirements

Electrical: 120V AC 60Hz / 230V AC50Hz– 25A

Dimensions: 2400mm (W) x 2300mm x (H) x 700mm (D)

Weight of equipment: 400 kg

Ambient Temperature: Operating 10°C to 35°C

Gas Supplies: The preferred fuel gas used in the test is a mixture of air & propane

Propane: The flow needs to be capable of delivering 1kg/hour at a minimum pressure of 3 Bar with a minimum purity of 95%

Clean & Dry Air: The flow needs to be capable of delivering 350nl/min at a nominal pressure of 7 Bar. This is required to obtain flame stability for testing

Water supply with drain or re-circulation system to cool the heat flux meter (1l/min)

Suitable exhaust system, de-coupled from the exhaust stack, whose air velocity should be 2.5+0.2m/s within the stack with the panel turned off, dummy specimen in place and access door closed. An axial flow fan with a variable extraction rate up to a maximum of 2500 m3/h  is suitable