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Spray Foam Iowa Falls

DeFord Spray Foam has been serving Iowa Falls for over 8 years. We are the oldest spray foam contractor in the area and we have worked with many of the builders and business in Iowa Falls.

Caleb DeFord of DeFord Spray foam is certified through the SPFA (Spray Polyurethane Foam Alliance) as Master Installer and Project Manager. No other spray foam company around Iowa Falls has achieved that. This is because of the stringent requirements to becoming a Master Installer and Project Manager with the SPFA. There are 4 written exams, 1 field exam, and an experience requirement of 1 million board feet of product installed in both open and closed cell foams.

If you want your spray foam job done right, DeFord Spray Foam is your best bet.

Caleb is also credentialed through the Building Performance Institute as a Building Analyst Professional and an Infiltration & Duct Leakage expert. These are no easy tests, and we’re very proud of the expertise we’ve gained over years of experience with spray foam as well as the superior trade knowledge we’ve gained along the way.

Call Caleb at 515-371-0858 and see for yourself why so many people in Iowa Falls call DeFord Spray Foam for their insulation and coatings needs.

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Barn Spray Foam in Eldora Iowa

Recently we helped turn an old hay mow into a conditioned play area using open cell foam and closed cell foam together.

The customer had a set budget to work with that didn’t allow for any extras. We worked out a deal that stayed within their budget while still giving them the conditioned space they wanted.

The gravel roads were so bad getting there, that we had to time our travel times around the coldest parts of the day so that we could get our spray rig in and out of the jobsite without getting stuck or making a mess in the customer’s drive way.

Everything went well and their barn’s hay mow is ready for action all year long.

Spray Foam is the best way to insulate a barn or shed. We’ve got lot’s of references to give you if you don’t believe us. 🙂

Spray Foam Barn Eldora Iowa

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Who Raises Concrete in Cedar Falls?

DeFord Concrete Lifting! Who else?…..

It doesn’t matter who else. We are your best option for getting your sidewalks leveled and repaired.

Do you have a sunken garage floor? We can slab jack it with our polyjacking crew and your garage slab will be raised right where you want it.

If you have settled concrete in Cedar Falls or the surrounding area, your solution is near by. Just let us know you need your slab lifted and we will come and help you.


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Why Choose Spray Foam?

We’ve gathered several different research reports, case studies, and 3rd party tests and listed them for you in order to demonstrate the economic and structural advantages of using spray foam versus using traditional insulation products like fiberglass or cellulose.

We would like to show you some real-life, practical examples of how spray foam compares to traditional insulation materials by looking at 5 case studies performed on various construction projects in different climates.

1: Case study on Residential Construction in Atlanta, GA

2: Case Study for Roanoke, VA

3: Case Study for residential construction in Richmond, VA

4: Case Study for Amherst College.pdf

5: Case Study for Texas A&M.pdf

Now you know that spray foam is economically sound, but spray foam offers additional benefits beyond energy savings. What follows shows why spray foam outperforms all other insulation materials and also explains the many additional benefits of spray foam.

According to the US Department of Energy, 40%-50% of the average home’s energy losses are from air leaks in the walls and ceilings. Why is so much energy lost in this way?  Because most homes are insulated with fiberglass and cellulose products that cannot stop air flow through and within the wall assembly. This air flow significantly reduces the performance of both of these traditional insulation products by allowing conditioned air to escape and also allowing hot/cold convection loops to form within the wall cavities. All this interchange of air movement through the wall cavity has a tremendous impact on the performance of these insulation mediums.

Convection loops can reduce the efficiency of an insulation system 25%-38%, –Building Science Corp. pg. 43-48 -and air blowing through a wall represents a complete insulation failure.

In addition, a 1%-2% void along the edges of an insulated cavity reduces the effectiveness of the insulation another 25%-40%. – Kansas State University

Engineering Extension pg. 2

In contrast, closed cell foam offers an air barrier at 1” and a seamless class II vapor barrier at 1.25”. Open cell foam provides an air barrier at 3.5” and neither open cell nor closed cell provides a food source for mold.

Open and closed cell foams do not allow air to move in convection loops within the insulation system. Properly applied, spray foam fully adheres to the wall cavity and allows no gaps or voids for air travel within the insulation medium.

Installed fiberglass performs at a much lower R-value than the fiberglass companies advertise. Oak Ridge National Laboratories tested wall structures insulated with fiberglass and found that normally installed fiberglass looses 28% of its advertised R-value. ORNL Testing of installed fiberglass

Foam will perform the same both in the laboratory and in the field because it glues itself in place, does not settle or sag over time, does not allow air to travel through itself, and closed cell foam is a class 2 vapor barrier. Closed cell foam also strengthens a wall 200% to 300%. NAHB Racking Test Results.

Fiberglass is vulnerable to damage from moisture.

Closed cell foam is FEMA approved for submersion in water for 72 hours without any damage. FEMA 

Fiberglass cannot completely conform to wall penetrations and oddly shaped wall cavities.

Foam expands 30 to 150 times its original volume, filling every nook and cranny without any difficulty or loss of R-value.

Fiberglass performs at significantly reduced efficiencies in extreme weather conditions.

Foam is affected by temperature differences much less than fiberglass. DOE Test Results

Spray Foam offers improved Indoor Air Quality compared to traditional insulation materials. Honeywell (pg. 15)

Spray foam offers a complete air seal, consistent long term performance, stronger buildings, quieter walls, flood resistance, improved indoor air quality, and an average return on investment of 3-5 years.

Don’t build tomorrow’s buildings with yesterday’s products. Insulate with spray foam and enjoy the benefits for a lifetime.

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Spray Foam Facts

Many people have only recently become aware of spray applied polyurethane foam and there is currently a great deal of misunderstanding concerning its properties and use. Many people don’t realize that there are different kinds of spray foam and many different uses for each of those kinds. The variety of uses possible with polyurethane foams has gained greater awareness among the general public, but mis-conceptions, inaccurate information, and rumors abound.

We would like to expose some of those rumors, explain some of the basic properties of polyurethane foam, and make you aware of some of the fascinating things that polyurethane foams can do for the construction industry.

We will discuss the following types and applications:

1. Closed-cell interior wall foam

2. Open-cell interior wall foam

3. Pour foam

4. Lifting foam

5. Roofing foam

6. Can foam

7. Injected foam

Closed cell foam was developed in the early 1940’s and by definition must have a closed cell content greater than 90% and a density greater than 1.5 lbs per.cu.ft. Most interior applications for closed cell spray foam are 1.7 to 2.0 lb. products with an R-value of 6.5-7.4 per inch.

Closed-Cell foam offers the highest R-value per inch of any commonly used insulation material. It also provides a seamless air barrier at 1” and it provides a Class 2 vapor barrier at 1.25”, depending on the brand of foam used.

Due to the strong adhesive and cohesive nature of Closed Cell foam, installing 2 inches of closed cell spray foam in a 2×4 wall increases the racking strength 200% to 300%.- NAHB  This is a significant advantage that only Closed Cell Spray foam can offer, and there are numerous examples of structures with closed cell foam insulation outperforming neighboring buildings during severe weather.- Honeywell (pgs 9,11,12)  This quality in closed cell foam is very beneficial especially when used in steel buildings. Steel buildings are prone to damage from high winds and can be very drafty, but with a closed cell foam insulation system the entire structure is essentially glued together with 2 or more inches of insulating, sound deadening, air-sealing, energy saving foam that greatly reduces the potential for damage from high winds or rainwater penetration into the building.

Closed Cell Foam is the only insulation material approved by FEMA for buildings in a flood zone. This is because closed cell foam is so durable and moisture resistant that it can be subjected to flood waters for over 72 hours without permanent damage. It can be cleaned by rinsing with water without any need for replacement.

Closed cell Foam is required by Local Building codes to have a 15 min. thermal barrier covering such as ½” gypsum board, when used in residential and commercial living spaces. However it can be used as a stand alone system without additional fire protection when used in attics and crawlspaces. Because closed cell foam offers a complete air seal, it should not be used in dwellings without Heat Recovery Ventilation systems or indoor air quality can be poor.

For more information about closed cell foam visit, ccfoam.com.

Next on our list is Open-Cell foam.

Open Cell Foam was developed in the early 1990’s and has a density of .5 lbs. per. cu. ft. and an R-value of 3.2-4.2 per inch.

Open-cell foam’s lower R-value per inch is offset by a lower cost per inch which allows builders to achieve an R-20 at 5 inches of open cell foam for roughly the same price as it would cost to achieve an R-13 using 2 inches of closed cell foam.

Open Cell foam provides an air barrier at 3.5 inches. This is significant because the bulk of moisture transfer and energy loss through a building envelope is air carried. By eliminating air flow we reduce the ability of moisture to move through the wall and condense on any cold surfaces. However, open cell foam is not a vapor barrier and is still vulnerable to vapor drive. Vapor drive comes into play when there is a strong vapor drive in one direction such as in a room with a swimming pool or sauna or a walk-in-freezer. In these environments, open cell foam can become saturated with moisture and will perform at greatly reduced efficiencies. Open cell is not suitable for applications with a significant vapor drive in one direction.

Open Cell foam requires a 15 min. thermal barrier when used in residential and commercial buildings except in attics where a 15 min. ignition barrier is accepted in place of a thermal barrier. Because open cell foam offers a complete air seal, it should not be used in dwellings without Heat Recovery Ventilators or Indoor Air Quality will be negatively affected.

Open cell foam does not increase the structural strength of a building.

Which is better? Open cell or Closed cell?  Clearly, closed cell is better because of its superior vapor protection, strength, higher R-value per inch, and its superior resistance to fire and flood damage, but open cell is a close second because it offers an air tight seal and it offers an R-20 for roughly the same price as an R-13 with closed cell. There is a never ending debate in the spray foam industry about which foam is a better value, but ultimately it’s up to the customer to decide whether they want Closed Cell or Open cell, and it’s up to the Spray foam contractor to provide accurate information to enable the buyer to make an informed decision. DeFord Insulating Company sprays both open and closed cell foams and we are more than happy to make recommendations on which would be best for you based on your specific project.

Pour Foam is made by lowering the reactivity of spray foams so that the foam may be poured into a cavity before it starts to expand. It is used for applications when it is not possible or convenient to spray the substrate. Such applications include but are not limited to:

Filling voids in  cinderblock walls.

Filling floatation chambers in boats and docks.

Filling voids in studded walls.

Pour foam applications have to be managed carefully because the force of expansion as the foam reacts can burst its container or swell the wall cavity.

Lifting Foam is a type of closed cell foam that can be used for repairing roads, bridges, and railways that have been compromised by settling of the soil underneath the structure. It uses the natural force of expansion inherent in all spray foams to generate lift under settled slabs or buildings. Lifting foam is applied by injecting it into the soil underneath the road or slab. As the foam expands, it lifts the cement to bring it to a consistent level with the roadway or structure around it. As much as 4 inches of lift can be gained through this application.

Next in our discussion is Roofing Foam. Roofing foam is yet another type of closed cell foam with a density of 2.5-3.5 lbs. per cu.ft. and an R-value near 7 per inch. It is durable enough to endure foot traffic and not only provides a long-lasting durable roof, but also a high performance insulation system that pays for itself over time. – TA&M Case Study Because sunlight deteriorates foam over time, roofing foam must be coated with UV protective coatings and must be recoated every 10 to 30 years depending on the type of coating used. Properly maintained, foam roofing systems can last a lifetime. – Honeywell (pg. 17)

Foam can also be packaged in cans and is used for sealing around windows and doors and other building envelope penetrations. There are many different types of can foam on the market today and they are available in both high expansion and low expansion versions.

Last of all is Injected foam. Even though injected foams are not in the polyurethane family of foams, we’ve included them here because many people associate injected foam with spray foam.

Injected foam is a phenolics or polymer based chemical system, not a polyurethane system, and its application and chemical makeup is much different than spray foam.. It has a density of .5 lbs. and an R-value of 4.1 to 5.1 per inch. During application it has the consistency of shaving cream and cures to a light, brittle, powdery consistency. This is the type of foam sold by Retrofoam. It is most often used to improve the insulation of existing buildings without removing the wall linings. It does not expand during installation and poses no threat of bursting the wall cavity. After being installed, injected foam shrinks as it dries and can shrink from the edges of a cavity .13” to 4.25.” If injected foam dries too quickly, it can shrink as much as 80%.

When installing injected foam systems, there is  potential for incomplete filling of the cavity due to obstructions in the wall cavity and faulty installation. There is rarely any opportunity to verify that a complete cavity fill has been achieved due to the fact that it is typically installed without opening either side of the wall cavity. In cold climates, the voids resulting from an incomplete cavity fill can become areas of moisture condensation and consequent mold growth. Testing on injected foam systems demonstrating these traits was conducted by Branz, an Australian research group. Click here to view the report.

While there are some disadvantages to injected foam systems, this does not mean that they are without value. In an un-insulated wall or a poorly insulated wall, injected foam can significantly improve the thermal efficiency by up to 50% in spite of its shortcomings.

If you have any questions about injected foam or any of other types of foam we have discussed, please contact us at caleb@defordinsulating.com or call Caleb at 515-371-0858.

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