ABSTRACT
PIR foams are known for their outstanding fire properties and for their good insulation performances. The fire behavior can be attributed to the aromatic structure of the isocyanurate ring and to the non-flammability of the blowing agent that is used nowadays.
For environmental reasons, HCFC-141b will have to be phased out as of 01.01.2003 for the production of PIR laminates boards, in Europe and in the United States.
This evolution represents a challenge for the producers as they need to find a high performance alternative in a relatively short period of time. As major requirement, this alternative will have to maintain the properties of the PIR foams, notably the fire behavior and the k-value at a high quality level.
Several blowing agent alternatives have been presented, and some of them have already been implemented in production plants.
Among them, pentane is seen as a candidate for economical reasons, but because of its high flammability, its use shows some limitations. The non-flammable alternative HFC-365mfc/HFC-227ea has proven to be an interesting alternative to obtain a good insulation value and good fire properties.
Besides, the existence of azeotropic blends between HFC-365mfc and the pentane isomers increases the degree of freedom of the system and makes the optimization process easier. When using the right combination of blowing agent, it is possible to reach an interesting compromise between the insulation characteristics, the fire performance and the cost of the system.
An analysis of properties of PIR foams produced with the several alternatives will be presented in this paper.
All statements, information, and data given herein are believed to be accurate and reliable but are presented without guarantee, warranty or responsibility of any kind, express or implied.
During the handling of the blends described in this paper, the user should not assume that all safety measures are indicated, or that other measures may not be required.
