R-value (insulation)

R-value (insulation)

The R value or R-value is a measure of thermal resistance (K·m²/W) [Oak Ridge National Laboratory, [http://www.ornl.gov/sci/roofs+walls/insulation/ins_02.html Which Kind Of Insulation Is Best?] , retrieved 2008-07-13.] used in the building and construction industry. The bigger the number, the better the building insulation's effectiveness [US Department of Energy, [http://www.eere.energy.gov/consumer/your_home/insulation_airsealing/index.cfm/mytopic=11340 The R-Value of Insulation] , retrieved 2008-07-13.] . R value is the reciprocal of U-value and one "R" is equal to ten tog.

Doubling the thickness of insulation will not double the R-value. An R-value only covers conducted heat, and is not a measure of the building insulation materials' qualities as a radiant barrier.


The world-wide definition of R-value is kelvin square meters per watt (K·m²/W), using the SI system.

In some countries that encounter both SI and local imperial measurements for R-value; the nomenclature "RSI" maybe used to denote the standard SI form of the valueFact|date=July 2008.

United States

The United States maintains their own definition for R-value, which can be spotted as being approximately six times larger than a standard unit. The imperial R-value is measured in degrees Fahrenheit, square feet hours per Btu, (ft²·°F·h/Btu).

A conversion factor can be applied to turn a US R-value into a non-US R-value. This conversion factor is 1 ft²·°F·h/Btu ≈ 0.1761 K·m²/W, or 1 K·m²/W ≈ 5.67446 ft²·°F·h/Btu.

New Zealand

New Zealand employs the SI system but may use imperial R-valuesFact|date=July 2008. The US-based imperial unit is often written as "R–##" (eg. "R–5.53").



The "U-factor" (or "U-value") describes how well a building element conducts heat. It measures the rate of heat transfer through a building element over a given area, under standardised conditions. The usual standard is at a temperature gradient of 24 °C, at 50% humidity with no wind [P2000 Insulation System, [http://www.p2000insulation.ca/testing/pdf/R-value%20Testing.pdf R-value Testing] ] (a smaller "U-value" is better).

"U" is the inverse of "R" with an SI definition of W/(m² K).

:: R=frac{1}{U}

For example, if the interior of your home is at 20 °C, and the roof cavity is at 10 °C, the temperature difference is 10 K. Assuming a ceiling insulated to R–2, energy will be lost at a rate of 10 K / 2 K·m²/W = 5 watts for every square metre of ceiling.

It is reasonable to sum the R-values of bulk insulators [http://www.ornl.gov/sci/roofs+walls/insulation/ins_02.html: "In calculating the R-value of a multi-layered installation, the R-values of the individual layers are added." ] e.g., R-value(brick) + R-value(fibreglass batt) + R-value(plasterboard) = R value(total).


R-value should not be confused with the intrinsic property of thermal resistivity and its inverse, thermal conductivity. The SI unit of thermal resistivity is K·m/W. Thermal conductivity assumes that the heat transfer of the material is linearly related to its thickness.


Thermal conductivity versus apparent thermal conductivity

Thermal conductivity is conventionally defined as the rate of thermal conduction that occurs through a material. That is, for a layer of material of known area and thickness, the rate of thermal energy transferred can be calculated based on the "surface temperature differential" between sides. It is not specifically related to the difference in air temperature or heating energy.

Experimentally, thermal conduction is measured by placing the material in contact between two conducting plates and measuring the energy fluxes required to maintain a certain temperature gradient.

A definition of R-value based on apparent thermal conductivity has been proposed in document C168 published by the American Society for Testing and Materials. This describes heat being transferred by all three mechanisms -- conduction, radiation, and convection.

Debate remains among representatives from different segments of the U.S. insulation industry during revision of the U.S. FTC's regulations about advertising R-values [ [http://www.ftc.gov/bcp/rulemaking/rvalue/review.shtm R-Value Rule Review ] ] illustrating the complexity of the issues.

Surface temperature in relationship to mode of heat transfer

There are weaknesses to using a single laboratory model to simultaneously assess the properties of a material to resist conducted, radiated or convective heating. Surface temperature varies depending on the mode of heat transfer.

In the absence of radiation or convection, the surface temperature of the insulator should equal the air temperature on each sides.

In response to thermal radiation, surface temperature depends on the thermal emissivity of the material. Light, reflective or metallic surfaces exposed to radiation tend to maintain lower temperatures than dark, non-metallic ones

Convection will markedly alter the rate of heat transfer (and surface temperature) of a insulator depending on the flow characteristics of the gas or fluid in contact with it.

With multiple modes of heat transfer, the final surface temperature (and hence observed energy flux and calculated R-value) will be dependent on the relative contributions of radiation, conduction and convection even though the total energy contributions remains the same.

This is an important consideration in building construction because heat energy arrives in different forms and proportions. The contribution of radiative and conductive heat sources also varies throughout the year and both are important contributors to thermal comfort

In the hot season, solar radiation predominates as the source of heat gain. On the other hand, conductive and convective heat losses play a more significant role during the cooler months.

The limitations of R-values in evaluating radiant barriers

Unlike bulk insulators, radiant barriers resist conducted heat poorly. Materials such as reflective foil have a high thermal conductivity and would function poorly as a conductive insulator.Radiant barriers retard heat flow by two means - by reflecting radiant energy away from its surface or by reducing the emission of radiation from its opposite side.

The question of how to quantify performance of other systems such as radiant barriers has resulted in controversy and confusion in the building industry with the use of R-values or 'equivalent R-values' for products which have entirely different systems of inhibiting heat transfer. According to current standards, R-values are most reliably stated for bulk insulation materials. All of the products quoted at the end are examples of these.

Calculating the performance of radiant barriers is more complex. The tests and procedures to evaluate bulk insulators are not applicable to radiant barriers. Although radiant barriers have high reflectivity (and low emissivity) over a range of electromagnetic spectra (including visible and UV light), its thermal advantages are mainly related to its emissivity in the infra-red range. Emissivity values [http://www.electro-optical.com/bb_rad/emissivity/matlemisivty.htm#Metals%20and%20Conversion%20Coatings] are the appropriate metric for radiant barriers. Their effectiveness when employed to resist solar radiation is established [ [http://www.fsec.ucf.edu/en/publications/html/FSEC-CR-1231-01-es/ FSEC-CR-1231-01-ES ] ] ,even though R-value do not adequately describe them.


Insulation aging

R-values of products may deteriorate over time. For instance the compaction of loose cellulose fill reduces the volume of air spaces and its insulation value. Some types of foam insulation, such as polyurethane and polyisocyanurate are blown with heavy gases such as chlorofluorocarbons or hydrochlorofluorocarbons (CFCs). However, over time these gases diffuse out of the foam and are replaced by air, thus reducing the effective R-value of the product. There are other foams which do not change significantly with aging because they are blown with water or are open-cell and contain no trapped CFCs or HFCs (e.g. half-pound isocyanate). On certain brands, twenty-year tests have shown no shrinkage or reduction in insulating value.

This has led to controversy as how to rate the insulation of these products. Many manufacturers will rate the R-value at the time of manufacture, while a more fair assessment would be its settled value. The foam industry has now adopted the LTTR method which rates the R-value based on a 15 year weighted average. While more realistic, the LTTR effectively provides only 8 year aged R-value, short in the scale of a building which may have a lifespan of 50-100 years.


Correct attention to weatherization and construction of vapour barriers are important for the optimal function of bulk insulators. Air infiltration can allow convective flow or condensation formation - both of which degrade the performance of the material.

One of the primary values of spray-foam insulation is its ability to create an water-tight and air-tight seal directly against the substrate to reduce this effect.

Example values

:"Note that these examples use the non-SI definition and/or given for a 1 inch (25.4 mm) thick sample."
Vacuum insulated panel has the highest R-value of (approximately ~45 in imperial units) for flat, aerogel has the next highest R-value (~10), followed by isocyanurate and phenolic foam insulations with, 8.3 and 7, respectively. They are followed closely by polyurethane and polystyrene insulation at roughly R–6 and R–5. Loose cellulose, fiberglass both blown and in batts, and rock wool both blown and in batts all possess an R-value of roughly 3. Straw bales perform at about R–3. However, typical straw bale houses have walls 18 inches thick providing an effective R–54. Snow is roughly R–1.

Absolutely still air has an R-value of about 5 but this has little practical use: Spaces of one centimeter or greater will allow air to circulate, convecting heat and greatly reducing the insulating value to roughly R–1.

Typical R-values thickness

All values are approximations, based on the average of available results.

List of examples

Values per inch. The R-values are measured in imperial measures, the numbers in parentheses are their SI equivalents.

Values for a specified unit (not per inch)

Materials such as natural rock, dirt, sod, adobe, and concrete have poor thermal resistance (R-value typically less than R-1 (0.17)), but work well for thermal mass applications because of their high specific heat.

U.S. regulation

The Federal Trade Commission (FTC) governs claims about R-values to protect consumers against deceptive and misleading advertising claims. "The Commission issued the R-Value Rule [ [http://www.ftc.gov/bcp/rulemaking/rvalue/16cfr460.shtm Labeling and Advertising of Home Insulation (R-Value Rule) 16 CFR 460 (Federal Trade Commission, USA)] ] to prohibit, on an industry-wide basis, specific unfair or deceptive acts or practices." (70 Fed. Reg. at 31,259 (May 31 2005).)

The primary purpose of the Rule, therefore, is to correct the failure of the home insulation marketplace to provide this essential pre-purchase information to the consumer. The information will give consumers an opportunity to compare relative insulating efficiencies, to select the product with the greatest efficiency and potential for energy savings, to make a cost-effective purchase and to consider the main variables limiting insulation effectiveness and realization of claimed energy savings.

The Rule mandates that specific R-value information for home insulation products be disclosed in certain ads and at the point of sale. The purpose of the R-value disclosure requirement for advertising is to prevent consumers from being misled by certain claims which have a bearing on insulating value. At the point of transaction, some consumers will be able to get the requisite R-value information from the label on the insulation package. However, since the evidence shows that packages are often unavailable for inspection prior to purchase, no labeled information would be available to consumers in many instances. As a result, the Rule requires that a fact sheet be available to consumers for inspection before they make their purchase.


The U.S. Federal Trade Commission's R-value Rule generally prohibits calculating R-value per inch of thickness. (16 C.F.R. 460.20.) The FTC explained the reason for this prohibition: Since the record demonstrates that R-values are not linear, advertisements, labels, and other promotional materials that express a product's thermal resistance in terms of R-value per inch deceive customers. The FTC further explained that references to the R-value for a one-inch thickness of the material will encourage consumers to think that it is appropriate to multiply this figure by the desired number of inches, as though R-value per inch were constant. (44 Fed Reg. at 50,224 (27 August 1979).)

Furthermore, comparisons per inch of thickness are mostly relevant for conductive and convective heat transfer—not radiant heat transfer—but some of the materials listed belowFact|date=November 2007 are designed to prevent radiant heat transfer.

ee also

* Building insulation
* Building insulation materials
* Cool roofs
* Installing building insulation
* Superinsulation
* Thermal bridge
* Condensation
* Passive solar design
* Sol-air temperature
* Thermal mass
* Thermal conductivity
* Thermal comfort


External links

* [http://www.plastics.org.nz/page.asp?id=468 Information on the calculations, meanings, and inter-relationships of related heat transfer and resistance terms]
* [http://www.monolithic.com/plan-design/rfairy/index.html "R" Fairy Tale: The Myth of Insulation Values]
* [http://www.thermapan.com/benefits/insulationmovie.html Rvalues: Myths and Reality ]
* [http://www.grassroots.ca/homeowner_help_articles/building_material_r_values_v2.html Canadian building material R-value table]
* [http://www.coloradoenergy.org/procorner/stuff/r-values.htm American building material R-value table] ;Tables of R-values:
* [http://www.e-star.com/ecalcs/table_rvalues.html]
* [http://coloradoenergy.org/procorner/stuff/r-values.htm]
* [http://www.allwallsystem.com/design/RValueTable.html]

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