Types of Spray Foam

What are the Different Types of Spray Foams?

 

CLOSED-CELL VS. OPEN-CELL FOAM

 

If your aim is to learn about spray polyurethane foam insulation, you’re on the right page. Before going forward with a spray foam application on either a commercial or residential building, it is important to establish whether you will utilize .05 lb./cu. ft., open-cell foam or 2.0 lb./cu. ft. closed-cell foam. When factoring performance, method of application, and price, the differences between the two are significant.

There are two chief factors to consider when it comes to differentiating open cell and closed-cell foam. First off, it is important to examine each type of foam. With open-cell foam, the minuscule cells of the foam are not entirely closed, so the foam itself is permeable and can fill with air and moisture. These tiny open spaces render the foam weaker and softer feeling than closed-cell foam. Unlike open-cell foam, closed-cell foam has all the tiny cells of the foam sealed. The cells contain a gas that provides the foam with the ability to expand and better insulate a structure. During the formulation process, the cells are designed to have certain attributes.

Open-cell spray polyurethane foam, sometimes called half-pound foam, has a typical density of 0.5 lb. per cubic foot and a typical R-value of 3.5 or 3.6 per inch.
Closed-cell foam, sometimes called two-pound foam, has a typical density of 2 lbs. per cubic foot and an R-value of 6 to 6.5 per inch.

Open-cell spray foam has an average density of 0.5 lbs per cubic foot. It provides a typical R-Value of 3.5 to 3.6 per inch. Since the open cells are relatively vapor-permeable, three inches of open-cell foam have a permeance of 16 perms. In fact, it often requires the use of a vapor retarder when used in interior applications.
Closed-cell foam is itself a vapor retarder. It is vapor semi-impermeable. Two and a half inches of closed-cell foam have a permeance of 0.8 perm.

Open-Cell spray foam uses water or C02 as a blowing agent and some open cell foams, especially those with low-density, use bio-based raw materials, such as sucrose or soybean oil instead of petrochemicals. Closed-cell Spray foam uses blowing agents that are hydrofluorocarbons (HFCs) with a high global warming potential. Because the global warming potential of these damaging blowing agents is 1,430 times more potent than carbon dioxide, many manufacturers are switching to more environmentally friendly Hydrofluoroolefins (HFOs).

In What Ways are Open-cell and Closed-Cell Polyurethane Foams Different?

If your aim is to learn about spray polyurethane foam insulation, you’re on the right page. Before going forward with a spray foam application on either a commercial or residential building, it is important to establish whether you will utilize .5 lb./cu. ft. open-cell, also known as half-pound, foam or 2.0 lb./cu. ft. closed-cell, also known as two-pound, foam. When factoring performance, method of application, and price, the differences between the two are significant.

There are two chief factors to consider when it comes to differentiating open cell and closed-cell foam. First off, it is important to examine each type of foam. With open-cell foam, the minuscule cells of the foam are not entirely closed, so the foam itself is permeable and can fill with air and moisture. These tiny open spaces render the foam weaker and softer feeling than closed-cell foam.

Unlike open-cell foam, in closed-cell foam, all the tiny cells of the foam are sealed. The cells contain a gas that provides the foam with the ability to expand and provide better insulation. During the formulation process, the cells are designed to have certain attributes.

Secondly, it is important to consider the density of the foam. To determine the density of the foam one solid cubic foot of foam material is weighed. Typically, open-cell foams are in the neighborhood of 0.4 to 0.5 lb./cu. ft. in volume. Closed-cell foam can vary in density when it comes to insulation and roofing applications. For insulation applications, closed-cell foam can fluctuate between 1.7 lb./cu. ft. to 2.0 lb./cu. ft., whereas for roofing applications, contractors will use between 2.8 to 3.0+ lb./cu. ft of foam. The heavier the foam is, the more rigid it can be. Polyurethane foam can even be used in a decorative setting such as utilizing foam to create interior molding, or it can be stained or painted to simulate wood grain. Such foams are very high in density, ranging from 30 lb./cu. ft. to 40 lb./cu. feet.

Closed-cell foam has a greater resistance to water vapor and air leakage, it is stronger, and has a higher R-value than open-cell foam. However, because closed-cell foam is higher in density, it requires more material than open-cell foam, therefore, it comes at a higher cost. Despite its higher R-value, closed-cell foam’s cost per R is still more expensive than open-cell foam. To decide which foam to use, it is important to look at characteristics like vapor control, strength, and available space in order to determine the requirements of the application. Open-cell foam usually utilizes water as a blowing agent and it has an R-3.5 value, whereas closed-cell foam requires high R-value blowing agents, yet gives out an R-6 value.

The factors mentioned above are catalysts when deciding which type of foam to use, as closed-cell and open-cell foams are the most common type of polyurethane foams used in building applications. Choosing the correct type of foam is essential, as one type of foam can be unnecessary and sometimes downright ineffective in certain applications. Case in point: Open-cell foam should not be used in applications where water can be absorbed because water is a poor insulator. Thus, using open-cell foam in below-grade or in flotation applications would provide little or no thermal insulation. In roofing applications or situations where the greatest R-value per inch is needed, closed-cell foam would be the correct choice of foam.

Prior to making a decision between open and closed-cell foam, you should request application and performance information of the materials considered from the supplier. Knowing the type and performance of the foam being used prior to the beginning of a job is an important topic to discuss with the spray foam applicator to make sure you are ahead of the game.