Dave Maxwell
Well-known member
If I put 1/2 white foamboard between studs on wall in pole building and fill any gaps with great stuff. Then fill with r19 bats and vapor barrier will it be OK. I can't swing all spray foam. The white is r3. Thanks
Any moisture that gets into the wall, has to dry to the inside or outside. Exapnded polystyrene 1" thick (~R4) is 3 perms, or vapor semi-permeable. However, assuming your pole shed has steel exterior, the steel is not. Thus, your fill would need to dry inward and so you need to be careful about installing a vapor barrier on the inside wall.
Not trying to steal the thread but I have a question about the statement above. Would Roxul wool insulation, which has no vapor barrier be a good choice? I have a new pole barn that needs something in the wall before I close things up.
If I put 1/2 white foamboard between studs on wall in pole building and fill any gaps with great stuff. Then fill with r19 bats and vapor barrier will it be OK. I can't swing all spray foam. The white is r3. Thanks
Who is having this condensation issue on a steel sides pole barn/garage? I'm reading a lot and whenever there is a question about insulation someone posts about condensation like its the great boogy man of, well, insulation.
If the flash and batt is done improperly, you get condensation on the inside of the building, in the wall cavity, on the foam, next to the fiberglass.
The foam must have enough R value to prevent this condensation.
3 1/2 faced fiberglass in the walls. This will leave an 1 1/2 air gap between the exterior metal and the figerglass.
I live in the Northeast where the winters will drop into single digits. My pole barn is built with 6 x 6's and 2 x 4 purlins to hang the metal siding giving me a gap of about 7". I was thinking of putting an 1 1/2" of spray foam and then batts due to price. Would this cause a problem with condensation? How thick would the spray foam have to be to prevent condensation?
Bad idea.
You will have convective air currents set up in that airspace. Air movement through fiberglass negates any insulating value of it. You will have a 3.5" air filter.
Fiberglass MUST be enclosed on all 6 sides to hope to achieve the R-value established in a controlled laboratory environment.
Bad idea.
You will have convective air currents set up in that airspace. Air movement through fiberglass negates any insulating value of it. You will have a 3.5" air filter.
Fiberglass MUST be enclosed on all 6 sides to hope to achieve the R-value established in a controlled laboratory environment.
One way to find out would be to do a section of wall with the air space and one with the space filled with fiberglass, and then view the wall with a thermal imager.
With the sun beating down on the exterior, the wall temperatures could easily get into 3 digits, depending on the color. There could be condensation issues on either the steel or the inner surface of the insulation, and wet fiberglass doesn't work so good.
I'm not a steel building expert, but the ones I have seen are held together with thousands of screws and air stops along the bottom and top are pretty much non-existant. Setting the panel into a c-channel or butting it to an angle doesn't really count. Corrugated walls are not easy to seal up. Wouldn't take much of a breeze to get into the building.
I would just do the job right and fill the space with insulation, on all 6 sides like it is supposed to be.
If the person doesn't want to spend the money for the extra 1.5" of insulation, then I'd **** the insulation up to the exterior wall and put the airspace inside.
I see many indoor comfort issues that are rooted to the improper installation of fiberglass insulation and poor definition of the conditioned space. Often, these issues are difficult and expensive to fix later, and doing the job right in the first place would have been much less expensive. To each their own.
Bad idea.
You will have convective air currents set up in that airspace. Air movement through fiberglass negates any insulating value of it. You will have a 3.5" air filter.
Fiberglass MUST be enclosed on all 6 sides to hope to achieve the R-value established in a controlled laboratory environment.
This does not pass the sniff test.
It is ridiculous to think that all 6 sides must be enclosed. Ever heard of attic insulation? Blown in or batt FG has been used for decades, not enclosed on 6 sides, and it works.
The whole concept that air will flow within any insulation to any significant degree is hogwash.
Lowell66dart - you would do well to minimize air gaps between your wall construction layers. Many walls are designed with a gap, called a rain screen, on the exterior, but this is used to mitigate the adverse effects of water penetration through the exterior cladding. I am no expert of steel building construction, but I would be inclined to believe that water intrusion into the wall assembly through steel siding would be nominal, so long as no gaps exist.
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Go attend some BPI classes and get back to me.
The abstract from a report on Thermal Performance of Fiberglass and Cellulose Attic Insulations performed by Oak Ridge National Laboratory:The whole concept that air will flow within any insulation to any significant degree is hogwash.
My bolding.A series of experiments has been completed on the thermal performance of fiberglass and cellulose attic insulations under winter conditions using an attic test module in a guarded hot box facility. Experiments with one type of loose-fill fiberglass insulation showed that the thermal resistance at large temperature differences (70 to 76°F) was about 35 to 50% less than at small temperature differences. The additional heat flow, attributed to natural convection, was effectively eliminated by applying a covering of fiberglass batts or a combination of a polyethylene film and fiberglass blankets. No significant convection was found either with fibergl;wbatts or with one type of loose-fill cellulose.