insulation values - metl-span · 2017. 12. 19. · insulation values. otherwise, method b must be...
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INSULATION VALUESMetric Version
TECHNICAL BULLETIN Vol. 3, No. 1
DECEMBER 2017
INSULATION VALUES
This is a thermal resistance guide for our insulated panels. This document is to serve as an explanation of code compliance and how these values were determined.
Code Compliance
In North America, the most accepted energy efficiency standard for commercial construction is the American Society of Heating, Refrigeration and Air Conditioning Engineers (ASHRAE) Standard 90.1. The current edition is 2013. This standard provides both a prescriptive and a performance path to be chosen at the designer’s discretion. The prescriptive path is most commonly used and also provides the baseline performance level that is used to determine compliance for the performance path as well, so understanding this set of requirements is critical. Within the prescriptive path, two possible methods of compliance are available to determine the minimum thermal performance of opaque areas on the building envelope. Section 5.5.3 is the pertinent passage and it reads:
5.5.3 Opaque Areas. For all opaque surfaces except doors, compliance shall be demonstrated by one of the following two methods:
a. Minimum rated R-value of insulation for the thermal resistance of the added insulation in framingcavities and continuous insulation only. Specifications listed in Normative Appendix A for eachclass of construction shall be used to determine compliance.
b. Maximum U-factor, C-factor, or F-factor for the entire assembly. The values for typical constructionassemblies listed in Normative Appendix A shall be used to determine compliance.
Exceptions to Section 5.5.3:
1. For assemblies significantly different from those in Appendix A, calculations shall be performed inaccordance with the procedures required in Appendix A.
2. For multiple assemblies within a single class of construction for a single space-conditioningcategory, compliance shall be shown for either (1) the most restrictive requirement or (2) an area-
weighted average U-factor, C-factor, or F-factor.
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INSULATION VALUES
The definitions pertinent to this passage italicized above are:
Continuous insulation (c.i.): insulation that is continuous across all structural members without thermal bridges other than fasteners and service openings. It is installed on the interior or exterior or is integral to any opaque surface of the building envelope.
Rated R-value of insulation: the thermal resistance of the insulation alone as specified by the manufacturer in units of K·m2/W at a mean temperature of 23.9°C. Rated R-value refers to the thermal resistance of the added insulation in framing cavities or insulated sheathing only and does not include the thermal resistance of other building materials or air films.
U-factor (thermal transmittance): heat transmission in unit time through unit area of a material or construction and the boundary air films, induced by unit temperature difference between the environments on each side. Units of U are W/K·m2.
So in effect, there are two possible ways to comply with the prescriptive requirements for a roof or wall assembly:
A. Provide insulation with a Rated R-value that meets or exceeds the minimum R-value requirement from the prescriptive tables 5.5-1 through 5.5-8, depending on climate zone.
B. Provide an assembly with a U-factor that meets or falls below the maximum U-factor requirement from the prescriptive tables 5.5-1 through 5.5-8, depending on climate zone
Appendix A of 90.1 contains calculation and testing requirements for R-value and U-factor determination as well as a dataset of U-factors that have been predetermined in accordance with the appendix for some common assemblies. If the assembly being provided does not meet the descriptions of the common assemblies in the appendix, then a thermal test or calculation method is the only way to determine a U-factor. In fact, exception a. of 5.5.3 provides the user with a shortcut to that conclusion. Testing requirements are given in Section A9.3 and calculation requirements are given in A9.4 of Appendix A. Different levels of rigor are to be used when calculating U-factors depending on the type of assembly; however, Section A9.2 does state that two-dimensional finite element methods are always allowed.
The definitions above in conjunction with the requirements of Appendix A then dictate that if Method A is used, the R-value of the insulation must be determined by either ASTM C518 or ASTM C1363 with a mean temperature of 23.9 degrees Celsius and cannot include air film effects. Furthermore, the assembly in question must meet the one of the descriptions in the Appendix.
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INSULATION VALUES
Otherwise, Method B must be used and the U-factor of the assembly is to be determined by testing per ASTM C1363 or finite element modeling. In either case, a representative sample section including panel edges, joints and thermal bridges such as fasteners is considered and the air film allowance provided in Section A.9.4.1 should be included as well.
Insulated panels are not an assembly type but instead are insulated sheathing that can be utilized on various kinds of assemblies. Therefore, it is not entirely clear how they apply to ASHRAE requirements. IMPs have thermally broken side joints and since the presence of fasteners alone does not violate the requirements for continuous insulation, IMPs can be interpreted to meet that definition. However, many designers do not agree with that interpretation and instead want to treat IMPs as an assembly and therefore require U-values from the manufacturer since Method A would not apply in that instance. Unfortunately, ‘thermal bridge’ is not defined in ASHRAE 90.1, so no guidance is provided by the standard itself. Because of this ambiguity, it is not clear which method from Section 5.5.3 is to be used for IMPs. Therefore, R-values determined by test and U-factors determined by calculation in accordance with ASHRAE are presented in Table 2 below and it is left to the designer’s discretion which to use.
Insulated Metal Panel R-value and U-factors
The information is provided shows the results thermal modeling using the THERM V7 which was calibrated and verified using ASTM C518 and ASTM C1363 testing. With the many different widths, profiles and thicknesses it is not possible to test every possible variable for the products offered by Metl-Span. The THERM software is widely used and was developed at Lawrence Berkeley National Laboratory (LBNL) for heat-transfer analysis of the sometimes complicated geometries of real-world building products.
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INSULATION VALUES
Panel Profile
Mean Temp (°C)
Nominal Core
Thickness (mm.)
Core R-value per ASTM C518 m2·K/W
42” Wide Panel
w/o air films w/ air filmsU-factor W/(m2·K)
R-value m2·K/ W
CF Mesa
23.9
50.8 2.52 2.67 0.4009 2.4963.5 3.14 3.29 0.2930 3.4176.2 3.77 3.92 0.2408 4.15101.6 5.03 5.18 0.1840 5.44127 6.29 6.44 0.1499 6.67152.4 7.55 7.70 0.1272 7.86
4.4
50.8 2.80 2.95 0.3799 2.6363.5 3.49 3.64 0.2788 3.5976.2 4.19 4.34 0.2277 4.39101.6 5.59 5.74 0.1732 5.77127 6.99 7.14 0.1408 7.10152.4 8.39 8.54 0.1192 8.39
Panel ProfileMean Temp
(°C)
Core Thickness
(mm.)
Core R-value per ASTM C518 m2·K/W
36" Wide Panel
w/o air films w/ air filmsU-factor
W/(m2·K)
R-value
m2·K/W
Architectural Flat
23.9
50.8 2.52 2.67 0.3799 2.6363.5 3.14 3.29 0.2839 3.5276.2 3.77 3.92 0.2271 4.40101.6 5.03 5.18 0.1743 5.74
4.4
50.8 2.80 2.95 0.3617 2.7663.5 3.49 3.64 0.2589 3.8676.2 4.19 4.34 0.2146 4.66101.6 5.59 5.74 0.1641 6.09
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INSULATION VALUES
Panel Profile
Mean Temp (°C)
Thickness (mm.)
Core R-value per ASTM C518 K·m2/W
36" Wide Panel
w/o air films w/ air filmsU-factor
W/(m2·K)
R-value
m2·K/W
Insul-Rib23.9
76.2 Due to the deep profiling of the 7.2 Insul-Rib Panel, the C518 test cannot be
used to determine thermal performance
0.4622 2.16101.6 0.3049 3.28127 0.2243 4.46
152.4 0.1783 5.61
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Panel Profile
Mean Temp (°C)
Nominal Core
Thickness (mm.)
Core R-value per ASTM C518 m2·K/W
42” Wide Panel
w/o air films w/ air filmsU-factor W/(m2·K)
R-value m2·K/ W
CF Flute
23.9
50.8 2.52 2.67 0.4094 2.4463.5 3.14 3.29 0.2970 3.3776.2 3.77 3.92 0.2453 4.08101.6 5.03 5.18 0.1862 5.37127 6.29 6.44 0.1516 6.60152.4 7.55 7.70 0.1283 7.79
4.4
50.8 2.80 2.95 0.3929 2.5463.5 3.49 3.64 0.2828 3.5476.2 4.19 4.34 0.2328 4.30101.6 5.59 5.74 0.1766 5.66127 6.99 7.14 0.1431 6.99152.4 8.39 8.54 0.1215 8.23
INSULATION VALUES
Panel Profile
Mean Temp (°C)
Core Thickness
(mm.)
Core R-value per ASTM C518 m2·K/W
42” Wide Panel
w/o air films w/ air films
U-factor
W/(m2·K)
R-value
m2·K/W
CFR Roof
23.9
50.8 2.52 2.65 0.3407 2.9463.5 3.14 3.28 0.2782 3.5976.2 3.77 3.91 0.2351 4.25101.6 5.03 5.17 0.1806 5.54127 6.29 6.43 0.1459 6.85152.4 7.55 7.68 0.1232 8.12
4.4
50.8 2.80 2.93 0.3220 3.1163.5 3.49 3.63 0.2623 3.8176.2 4.19 4.33 0.2215 4.52101.6 5.59 5.73 0.1692 5.91127 6.99 7.13 0.1368 7.31152.4 8.39 8.52 0.1141 8.76
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Panel ProfileMean Temp
(°C)
Nominal Core
Thickness (mm.)
Core R-value per ASTM C518 m2·K/W
42” Wide Panel
w/o air films w/ air filmsU-factor W/(m2·K)
ThermalSafe Wall 23.9
76.2 1.91 2.06 0.4861101.6 2.54 2.69 0.3714127 3.18 3.33 0.3004152.4 3.81 3.96 0.2521177.8 4.45 4.60 0.2175203.2 5.09 5.24 0.1908
INSULATION VALUES
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Panel Profile
Mean Temp (°C)
Thickness (mm.)
Core R-value per ASTM C518 m2·K/W
36” Wide Panel
w/o air films w/ air films
U-factor
W/(m2·K)
R-value
m2·K/W
LS-36 Roof
23.9
38.1 1.89 2.02 0.4474 2.2350.8 2.52 2.65 0.3424 2.9263.5 3.14 3.28 0.2794 3.5876.2 3.77 3.91 0.2362 4.23101.6 5.03 5.17 0.1857 5.39127 6.29 6.43 0.1516 6.60152.4 7.55 7.68 0.1266 7.90
4.4
38.1 2.10 2.23 0.4230 2.3650.8 2.79 2.93 0.3237 3.0963.5 3.49 3.63 0.2640 3.7976.2 4.19 4.33 0.2220 4.50101.6 5.59 5.73 0.1738 5.76127 6.99 7.13 0.1414 7.07152.4 8.39 8.52 0.1192 8.39
Panel Profile
Mean Temp (°C)
Thickness (mm.)
Core R-value per ASTM C518 m2·K/W
36" Wide Panel
w/o air films w/ air films
LS-36 Wall
23.9
38.1 1.89 2.04 0.4446 2.2550.8 2.52 2.67 0.3418 2.9363.5 3.14 3.29 0.2788 3.5976.2 3.77 3.92 0.2351 4.25101.6 5.03 5.18 0.1851 5.40127 6.29 6.44 0.1522 6.57152.4 7.55 7.70 0.1289 7.76
4.4
38.1 2.10 2.25 0.4230 2.3650.8 2.79 2.94 0.3231 3.1063.5 3.49 3.64 0.2623 3.8176.2 4.19 4.34 0.2215 4.52101.6 5.59 5.74 0.1738 5.76127 6.99 7.14 0.1420 7.04152.4 8.39 8.54 0.1198 8.35
U-factor
W/(m2·K)
R-value
m2·K/W
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LEWISVILLE, TX 75057877.585.9969
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