- Clean Room
- Cold Room
- Roof Panel
- Air Handling Unit (AHU)
- Wall panel in Condominium
- Panel in Modular House
Presently, Square Panel System Co., Ltd. has innovated a new product – Polyisocyanurate (PIR) foam under Discontinuous Production System. The product has special characteristics which are fire proof, insulation as well as thermal conductivity (K) = 0.024 watt /m.k. These characteristics are similar to polyurethane (PU) foam.
The PIR foam has been tested by Faculty of Engineering, Chulalongkorn University and passed ASTM E84 Standard Test Method for Fire-resistance and Uniform Building Code Standard No. 26-3 (UBC 26-3) - Room Fire Test Standard for Interior Form Plastic System (as shown in the document). As a result of these unique characteristics, PIR foam has earned acceptance and recognition by many institutions such as FM, ASTM, BS, JIS, DIN STANDARD etc.
With state-of-the-art, efficient and environmentally friendly production technology (free from chlorofluorocarbons), Square Panel System Co., Ltd. is ready to manufacture and market our PIR insulated panels to customers.
Test results in accordance with UBC26-3 standard
The observation began when the crib started igniting. Video tape and photograph were used to record the observation before and during the test for considering ignition behaviour of product. Details of the observation were shown in table1 and the duration of observation was 15 minutes.
Table1 Information of the observation during the test
|Time (min:sec)||Details of test observation|
|0:00||Flames start igniting wood excelsior. Light smoke from burning wood excelsior spreads around test room but still can observe inside walls.|
|1:00||Flames ignite all over wood excelsior.|
|1:30||Noises are made intermittently from the expansion of steel wrapping of product.|
|2:00||Flames reach 150 cm. above wood excelsior. (Thermocouple#2)|
|4:15||Flames reach to ceiling. Product colour starts breaking. Product expands.|
|5:00||The edge of walls and ceiling around the crib start being charred.|
|6:00||White smoke spreads out of joints of floor and wall and wall and ceiling.|
|8:00||Corners of the crib start igniting.|
|10:30||White smoke spreads out of the side and doorway. Flames ignite the crib severely.|
|12:00|| Black smoke is generated above the crib and spread in test room.
Flames ignite the crib more severely.
|15:00||End test. The fire was extinguished by using chemicals and water.|
- No flames spread out of the front doorway of test room or flashover
- Product didn't not produce excessive smoke.
- Charring did not extend to the outside edge of sandwich panel sides that did not contact to the fire.
According to UBC8-2, if flames ignite out of test room and top surface temperature in the middle of test room reaches approximately 600°C. Ignition behaviour may consider to be severe and dangerous.
Results of test model in accordance with ASTM E84 standard
Test apparatus model
This test model specified length of test apparatus as 3.5 m, but cross section area still had size following the standard as shown in figure 6 - 7.Test apparatus model consisted of gas burner which connected to liquid fuel and ventilation fan at opposite end. Smoke density detector was not installed in this model, so smoke- developed index value could not be calculated.
The test started by installing and laying test specimens which were 60 cm. wide x 300 cm. length horizontally on the edge of supporters in the tunnel. Flame released for heating under specimens for 10 minutes. Flame spread distance was observed every 30 seconds at observation windows. Graph of flame spread distance versus time was plotted and curve characteristic was adjusted to meet standard requirement (Curve characteristic only increases or remains stable). Area under the curve was used to calculate flame spread index.
This test can not use for testing with material that will peel off or melt under heat conditions
Environmental control during the test
- Ventilation which affect to flame characteristic was controlled
- Temperature in the test was around 500°C. Before starting the test, the height of gas burner and released gas temperature were calibrated to meet standard requirement. Temperature was controlled by inserting incombustible fiber cement board at the edge of supporters in the tunnel and measured temperature on the surface of material above the flame.
Flame spread distance was measured by observing characteristic and distance of flame which were generated from test material (flame which was generated by gas burner was not considered) as shown in figure 8 - 9. The test results of flame spread were shown in graph 3. Flame spread distance versus time graph and value adjustment in according to standard was shown in figure 10 - 11. Calculated flame spread index* (FSI) values were given below.
- Flame spread index of Specimen 1 = 5 (Measured FSI value = 4.3)*
- Flame spread index of Specimen 2 = 5 (Measured FSI value = 4.4)*
Specimen 2 : The highest distance of flame spread was 11 inches. Flames could be observed from the crack of material at minute 8:00. After the test, there was a 1 foot wide crack on the material as shown in figure 13. The appearance was similar to sample 1.