*All prices are in Canadian funds.
FlexFoam-iT 23 FR Five Gallon Kit 74Lb (800677)
FlexFoam-iT 23 FR is a premium quality water blown flexible foam which has a density of 23 Lb/cu.ft. and meets UL-94 HB flame resistance requirements. Mix ratio is 85A:100B by weight, pot life is approximately 90 seconds, handling time is 1 hour and cure time is 2 hours. Expansion is about 2 times the liquid volume and color is white and can be further pigmented. FlexFoam-iT 23 FR flame rating is UL-94 HB, which is an Underwriter's Laboratories (UL) certification measuring flame resistance of materials used to produce devices and appliances. Size: Five Gallon Kit 74Lb
FLEXFOAM-iT EXPANSION RATES
HELPFUL TIPS FOR CASTING FLEXFOAM-iT URETHANE EXPANDING FOAMS:
Thorough pre-mixing of both Part"A" and Part"B" in their original containers prior to measuring out.
Specifically, failure to pre-mix Part"B" prior to dispensing will cause the ingredients in the system to remain unbalanced. Storing and working with materials in cold environments will cause the components of Parts "A" and "B" to separate (i.e. vinegar and oil). If these components are not brought back to proper room temperature and reconstituted this will cause failure in their cross-linking when mixed together.
Thorough mixing of Part"A" and Part"B" combined.
Once combined together, Part"A" and Part"B" must be evenly and thoroughly blended scraping both sides and bottom of the mixing container. A double-mix pour technique, time allowing depending on product blended pot-life, will assist in the most successful mixing technique. Often with the foams, users will work quickly as materials generally have a short pot-life before expansion occurs and neglect a thorough mixing procedure.
Use of silicone-based release agents in molds where foams are cast, will cause collapse of the foam cell structure.
Mold configuration; if the mold is 'closed' and not capable of allowing gas to escape during the expansion & cure process of the foam, the de-molding procedure will result in the gases escaping from the cured foam causing collapse of the casting. Using a mold where the gases are allowed to escape during cure is important.
If the casting comes out of the mold collapsed; often it can be compressed which will cause it to re-inflate.
Cold molds can also contribute to foam collapse; sometimes materials will be kept at proper temperature, however, if the material is poured into a cold mold, that may cause cure-issues and collapse of the foam casting.