Building insulation materials - AbsoluteAstronomy.com

Building insulation materials are thermal insulation

Thermal insulation

Thermal insulation is the reduction of the effects of the various processes of heat transfer between objects in thermal contact or in range of radiative influence. Heat transfer is the transfer of thermal energy between objects of differing temperature...

used in the construction or retrofit of buildings.
The materials are used to reduce heat transfer by conduction

Heat conduction

In heat transfer, conduction is a mode of transfer of energy within and between bodies of matter, due to a temperature gradient. Conduction means collisional and diffusive transfer of kinetic energy of particles of ponderable matter . Conduction takes place in all forms of ponderable matter, viz....

, radiation

Radiant energy

Radiant energy is the energy of electromagnetic waves. The quantity of radiant energy may be calculated by integrating radiant flux with respect to time and, like all forms of energy, its SI unit is the joule. The term is used particularly when radiation is emitted by a source into the...

or convection

Convection

Convection is the movement of molecules within fluids and rheids. It cannot take place in solids, since neither bulk current flows nor significant diffusion can take place in solids....

and are employed in varying combinations to achieve the desired outcome (usually thermal comfort

Thermal comfort

Thermal comfort is a term used by the American Society of Heating, Refrigerating and Air-Conditioning Engineers, an international body. It is defined as the state of mind in humans that expresses satisfaction with the surrounding environment...

with reduced energy consumption).

Consideration of materials used

Factors affecting the type and amount of insulation to use in a building include:

Climate
Ease of installation
Durability - resistance to degradation from compression, moisture, decomposition, etc.
Ease of replacement at end of life
Cost effectiveness
Toxicity
Flammability
Environmental impact and sustainability

Often a combination of materials are used to achieve an optimum solution and there are products which combine different types of insulation into a single form.

Spray polyurethane foam (SPF)

For large to mid scale applications, a two component mixture comes together at the tip of a gun, and forms an expanding foam that is sprayed onto concrete slabs, into wall cavities of an unfinished wall, against the interior side of sheathing, or through holes drilled in sheathing or drywall into the wall cavity of a finished wall.

Advantages

Blocks airflow by expanding and sealing off leaks, gaps and penetrations.
Can serve as a semi-permeable vapor barrier with a better permeability rating than plastic sheeting vapor barriers and consequently reduce the build up of moisture, which can cause mold growth.
Can fill wall cavities in finished walls without tearing the walls apart (as required with batts).
Works well in tight spaces (like loose-fill, but superior).
Provides acoustical insulation (like loose-fill, but superior).
Expands while curing, filling bypasses, and providing excellent resistance to air infiltration (unlike batts and blankets, which can leave bypasses and air pockets, and superior to some types of loose-fill. Wet-spray cellulose is comparable.).
Increases structural stability (unlike loose-fill, similar to wet-spray cellulose).
Can be used in places where loose-fill cannot, such as between joists and rafters. When used between rafters, the spray foam can cover up the nails protruding from the underside of the sheathing, protecting your head.
Can be applied in small quantities.
Cementitious foam is fireproof.

Disadvantages

The cost can be high compared to traditional insulation.
Most of all, with the exception of cementitious foams, release toxic fumes when they burn.
According to the U.S. Environmental Protection Agency‎, there is insufficient data to accurately assess the potential for exposures to the toxic and environmentally harmful isocyanates which constitute 50% of the foam material.
Depending on usage and building codes and evironment, most foams require protection with a thermal barrier such as drywall on the interior of a house. For example a 15-minute fire rating may be required.
Can shrink slightly while curing if not applied on a substrate heated to manufacturer's recommended temperature.
Although CFC
Chlorofluorocarbon
A chlorofluorocarbon is an organic compound that contains carbon, chlorine, and fluorine, produced as a volatile derivative of methane and ethane. A common subclass are the hydrochlorofluorocarbons , which contain hydrogen, as well. They are also commonly known by the DuPont trade name Freon...

s are no longer used, many use HCFCs or HFCs as blowing agents. Both are potent greenhouse gases, and HCFCs have some ozone depletion potential.
Most, such as Polyurethane and Isocyanate insulation, contain hazardous chemicals such as benzene and toluene. These are a potential hazard and environmental concern during raw material production, transport, manufacture, and installation.
Many foam insulations are made from petrochemicals and may be a concern for those seeking to reduce the use of fossil fuels and oil. However, some foams are becoming available that are made from renewable or recycled sources.
R-value will diminish slightly with age, though the degradation of R-value
R-value (insulation)
The R-value is a measure of thermal resistance used in the building and construction industry. Under uniform conditions it is the ratio of the temperature difference across an insulator and the heat flux through it or R = \Delta T/\dot Q_A.The R-value being discussed is the unit thermal resistance...

stops once an equilibrium with the environment is reached. Even after this process, the stabilized R-value is very high.
Most foams require protection from sunlight and solvents.
It is difficult to retrofit
Retrofit
Retrofitting refers to the addition of new technology or features to older systems.* power plant retrofit, improving power plant efficiency / increasing output / reducing emissions...

some foams to an existing building structure because of the chemicals and processes involved.
If one does not wear a protective mask or goggles, it is possible to temporarily impair one's vision. (2–5 days)

Advantages of closed-cell over open-cell foams

Open-cell foam is porous, allowing water vapor and liquid water to penetrate the insulation. Closed-cell foam is non-porous, and not moisture-penetrable, thereby effectively forming a SEMI-permeable vapor barrier. (N.b., vapor barriers are usually required by the Building Codes, regardless of the type of insulation used. Check with the local authorities to find out the requirements for your area.)
Closed-cell foams are superior insulators. While open-cell foams typically have R-values of 3 to 4 per inch (RSI-0.53 to RSI-0.70 per inch), closed-cell foams can attain R-values of 5 to 8 per inch (RSI-0.88 to RSI-1.41 per inch). This is important if space is limited, because it allows a thinner layer of insulation to be used. For example, a 1-inch layer of closed-cell foam provides about the same insulation factor as 2 inches of open-cell foam.
Closed-cell foam is very strong, and structurally reinforces the insulated surface. By contrast, open-cell foam is soft when cured, with little structural strength.
Open-cell foam requires trimming after installation, and disposal of the waste material. Unlike open-cell foam, closed-cell foam rarely requires any trimming, with little or no waste.

Types

Icynene spray formula: R-3.6 (RSI-0.63) per inch. Icynene (polyicynene) "Does not shrink, sag or settle." Icynene uses water for its spray application instead of any ozone depleting chemicals. Flammability is relatively low. Disadvantages: Expensive. Smoke is toxic. Polyicynene is a plastic (open cell polyurethane foam) and therefore made from petrochemicals. Contact with skin, eyes, or respiratory system is hazardous during application. Similar hazards occur during manufacture. Isocyanates are the leading cause of workplace-related asthma and pulmonary disorders in many post-industrial countries.
Sealection 500 spray foam:R-3.8 (RSI-0.67) per inch. a water-blown low density spray polyurethane foam that uses water in a chemical reaction to create carbon dioxide and steam which expands the foam. Flame spread

Flame spread

Flame spread or surface burning characteristics rating is a ranking derived by laboratory standard test methodology of a material's propensity to burn rapidly and spread flames...

is 21 and smoke developed is 217 which makes it a Class I material (best fire rating). Disadvantages: Is an Isocyanate.
Cementitious foam: One example is AirKrete R-3.9 (RSI-0.69) per inch. Non-hazardous. Is the only foam not restricted to a depth of application. Being fireproof, it will not smoke at all upon direct contact with flame, and is a two-hour firewall at a 3.5 in (88.9 mm) (or normal 2 × stud wall) application, per ASTM E-814 testing (UL 1479). Great for sound deadening; does not echo like other foams. Environmentally friendly. Non-expansive (good for existing homes where interior sheathing is in place). Fully sustainable: Consists of magnesium oxide cement and air, which is made from magnesium oxide extracted from seawater. Blown with air (no CFCs, HCFCs or other harmful blowing agents). Nontoxic, even during application. Does not shrink or settle. Zero VOC emission. Chemically inert (no known symptoms of exposure per MSDS). Insect resistant. Mold Proof. Insoluble in water. Disadvantages: Fragile at the low densities needed to achieve the quoted R value and, like all foams, it is more expensive than conventional fiber insulations.
Polyisocyanurate

Polyisocyanurate

Polyisocyanurate, also referred to as PIR, polyiso, or ISO, is essentially an improvement on polyurethane . The proportion of methylene diphenyl diisocyanate is higher than for PUR and instead of a polyether polyol, a polyester derived polyol is used in the reaction...

: Typically R-5.6 (RSI-0.99) or slightly better after stabilization - higher values (at least R-7, or RSI-1.23) in stabilized boards. Less flammable than polyurethane.
Phenolic injection foam: Such as Tripolymer R-5.1 per inch (ASTM-C-177). Known for its air sealing abilities. Tripolymer can be installed in wall cavities that have fiberglass and cellulose in them. Non-hazardous. Not restricted by depth of application. Fire resistant – flame spread 5, smoke spread 0 (ASTM-E-84) - will not smoke at all upon direct contact with flame and is a two-hour firewall at a 3.5 in (88.9 mm), or normal 2 × stud wall, application per ASTM E-199. Great for sound deadening, STC 53 (ASTM E413-73; does not echo like other foams. Environmentally friendly. Non-expansive (good for existing homes where interior sheathing is in place). Fully sustainable: Consists of phenolic, a foaming agent, and air. Blown with air (no CFCs, HCFCs or other harmful blowing agents). Nontoxic, even during application. Does not shrink or settle. Zero VOC emission. Chemically inert (no known symptoms of exposure per MSDS). Insect resistant. Mold Proof. Insoluble in water. Disadvantages: Like all foams, it is more expensive than conventional fiber insulations when only comparing sq ft pricing. When you compare price to R value per sq ft the price is about the same.
Closed-cell polyurethane: White or yellow. May use a variety of blowing agents. Resistant to water wicking and water vapor.
Open-cell (low density) polyurethane: White or yellow. Expands to fill and seal cavity, but expands slowly, preventing damage to the wall. Resistant to water wicking, but permeable to water vapor. Fire resistant.
Polystyrene

Polystyrene

Polystyrene ) also known as Thermocole, abbreviated following ISO Standard PS, is an aromatic polymer made from the monomer styrene, a liquid hydrocarbon that is manufactured from petroleum by the chemical industry...

Great Stuff: A Dow Chemical product that comes in cans and consists of several complex chemicals mixed together (isocyanates, ether, polyol). Dow manufactures this for small applications, but there is nothing stopping someone from buying dozens of cans for a large retrofit task, such as sealing the sill plate. Since the blowing agent is a flammable gas, using large quantities in a short time requires strict attention to ventilation. Toxic vapors are minimal due to low vapor pressure and what little there is should be removed quickly if adequate ventilation is used. However, a respirator with an organic vapor sorbent may be advisable in some cases, for example if the foam is heated. Very thick applications should be done layer-by-layer to ensure proper curing in a reasonable time frame.
Honeywell's Enovate

Enovate

A proprietary foam insulation blowing agent produced by Honeywell used in closed-cell spray foam insulation. Enovate is also known as HFC-245fa, or 1,1,1,3,3,-pentafluoropropane. Unlike CFC and HCFC blowing agents formerly used for this purpose, it has zero ozone depletion potential. However, it...

Foam Blowing Agent: An HFC used in some closed-cell spray foam insulations. Although it has zero ozone depletion potential, it has a high global warming potential of 950 (meaning it is 950 times as potent as CO₂ in its global warming effect). For example, E:zero spray foam solutions offers both open and closed cell varieties of spray foam insulation, some of which use Enovate

Enovate

high global warming potential blowing agents.

Insulating concrete forms

Insulating concrete forms (ICFs) are stay-in-place formwork

Formwork

Formwork is the term given to either temporary or permanent molds into which concrete or similar materials are poured. In the context of concrete construction, the falsework supports the shuttering moulds.-Formwork and concrete form types:...

made from insulating materials to build energy-efficient, cast-in-place, reinforced concrete walls.

Rigid panels

Rigid panel insulation is made from fibrous materials (fiberglass, rock and slag wool) or from plastic foam

Foam

-Definition:A foam is a substance that is formed by trapping gas in a liquid or solid in a divided form, i.e. by forming gas regions inside liquid regions, leading to different kinds of dispersed media...

Structural insulated panels

Structural insulated panel

Structural insulated panels , SIPs, are a composite building material. They consist of an insulating layer of rigid polymer foam sandwiched between two layers of structural board...

s (SIPs), also called stressed-skin walls, use the same concept as in foam-core external doors, but extend the concept to the entire house. They can be used for ceilings, floors, walls, and roofs. The panels usually consist of plywood, oriented strandboard, or drywall glued and sandwiched around a core consisting of expanded polystyrene, polyurethane, polyisocyanurate, compressed wheat straw, or epoxy. Epoxy

Epoxy

Epoxy, also known as polyepoxide, is a thermosetting polymer formed from reaction of an epoxide "resin" with polyamine "hardener". Epoxy has a wide range of applications, including fiber-reinforced plastic materials and general purpose adhesives....

is too expensive to use as an insulator on its own, but it has a high R-value (7 to 9), high strength, and good chemical and moisture resistance.

SIPs come in various thicknesses. When building a house, they are glued together and secured with lumber. They provide the structural support, rather than the studs used in traditional framing.

Advantages

Strong. Able to bear loads, including external loads from precipitation and wind.
Faster construction than stick-built house. Less lumber required.
Insulate acoustically.
Impermeable to moisture.
Can truck prefabricated panels to construction site and assemble on site.
Create shell of solid insulation around house, while reducing bypasses common with stick-frame construction. The result is an inherently energy-efficient house.
Do not use formaldehyde, CFCs, or HCFCs in manufacturing.
True R-values and lower energy costs.

Disadvantages

More expensive than other types of insulation.
Thermal bridging at splines and lumber fastening points unless a thermally broken spline is used(insulated lumber).

Fiberglass batts and blankets (Glass wool
Glass wool
Glass wool or fiberglass insulation is an insulating material made from fiberglass, arranged into a texture similar to wool. Glass wool is produced in rolls or in slabs, with different thermal and mechanical properties....

)

Batts are precut, whereas blankets are available in continuous rolls. Compressing the material reduces its effectiveness. Cutting it to accommodate electrical boxes and other obstructions allows air a free path to cross through the wall cavity. One can install batts in two layers across an unfinished attic floor, perpendicular to each other, for increased effectiveness at preventing heat bridging. Blankets can cover joists and studs as well as the space between them. Batts can be challenging and unpleasant to hang under floors between joists; straps, or staple cloth or wire mesh across joists, can hold it up.

Gaps between batts (bypasses) can become sites of air infiltration or condensation (both of which reduce the effectiveness of the insulation) and requires strict attention during the installation. By the same token careful weatherization

Weatherization

Weatherization or weatherproofing is the practice of protecting a building and its interior from the elements, particularly from sunlight, precipitation, and wind, and of modifying a building to reduce energy consumption and optimize energy efficiency.Weatherization is distinct from building...

and installation of vapour barriers is required to ensure that the batts perform optimally. Air infiltration can be also reduced by adding a layer of cellulose loose-fill on top of the material.

Types

Rock and slag wool
Mineral wool
Mineral wool, mineral fibers or man-made mineral fibers are fibers made from natural or synthetic minerals or metal oxides. The latter term is generally used to refer solely to synthetic materials including fiberglass, ceramic fibers and stone wool...

. Usually made from rock (basalt, diabase) or iron ore blast furnace slag. Some rock wool contains recycled glass. Nonflammable.
Fiberglass
Fiberglass
Glass fiber is a material consisting of numerous extremely fine fibers of glass.Glassmakers throughout history have experimented with glass fibers, but mass manufacture of glass fiber was only made possible with the invention of finer machine tooling...

. Made from molten glass, usually with 20% to 30% recycled industrial waste and post-consumer content. Nonflammable, except for the facing (if present). Sometimes, the manufacturer modifies the facing so that it is fire-resistant. Some fiberglass is unfaced, some is paper-faced with a thin layer of asphalt, and some is foil-faced. Paper-faced batts are vapor retarders, not vapor barriers. Foil-faced batts are vapor barrier
Vapor barrier
A vapor barrier is often used to refer to any material for damp proofing, typically a plastic or foil sheet, that resists diffusion of moisture through wall, ceiling and floor assemblies of buildings and of packaging...

s. The vapor barrier must face the proper direction.
High-density fiberglass
Plastic fiber, usually made from recycled plastic. Does not cause irritation like fiberglass, but more difficult to cut than fiberglass. Not used in USA. Flammable, but treated with fire-retardant.

Batts as the common choice of residential insulator in the United States

Other insulation materials present advantages in terms of stopping air, moisture migration, and recycling for sustainability not found in fiberglass batts.

Natural fiber

Natural fiber insulations (similar to mineral fiber and fiberglass insulation at 0.04 W/mK), treated as necessary with low toxicity fire and insect retardants, are available in Europe : Natural fiber insulations can be used loose as granulats or formed into flexible or semi-rigid panels and rigid panels using a binder (mostly synthetic such as polyester, polyurethane or polyolefin). The binder material can be new or recycled.

Examples include cork , cotton, recycled tissue/clothes, hemp

Hemp

Hemp is mostly used as a name for low tetrahydrocannabinol strains of the plant Cannabis sativa, of fiber and/or oilseed varieties. In modern times, hemp has been used for industrial purposes including paper, textiles, biodegradable plastics, construction, health food and fuel with modest...

, flax, coco, wool, lightweight wood fiber, cellulose, seaweed, etc. Similarly, many plant-based waste materials can be used as insulation such as nut shells, the cob of corns, most straws including lavender straw, recycled wine bottle corks (granulated), etc. They may have a little less thermal performance than industrial products which can re-gained with a little more thickness. They may or may not require fire retardants or anti-insect/pest treatments. Clay coating is a non toxic additive which often meets these requirements.

Traditional clay-impregnated light straw insulation has been used for centuries in the northern climates of Europe. The clay coating gives the insulation a half hour fire rating according to DIN (German) standards.

Wood fiber

Wood fiber insulation is available as loose fill, flexible batts and rigid panels for all thermal and sound insulation uses.
It can be used as internal insulation : between studs, joists or ceiling rafters, under timber floors to reduce sound transmittance, against masonry walls
or externally : using a rain screen cladding or roofing, or directly plastered/rendered , over timber rafters or studs or masonry structures as external insulation to reduce thermal bridges.
There are two manufacturing processes:

a wet process similar to pulp mills in which the fibers are softened and under heat and pressure the ligin in the fibres is used to create boards. The boards are limited to approximately 25 mm thickness; thicker boards are made by gluing (with modified starch
Modified starch
Modified starch, also called starch derivatives, are prepared by physically, enzymatically, or chemically treating native starch, thereby changing the properties of the starch. Modified starches are used in practically all starch applications, such as in food products as a thickening agent,...

or PVA wood glue). Additives such as latex or bitumen are added to increase water resistance.
a dry process where a synthetic binder such as pet (polyester melted bond), polyolefin or polyurethane is added and the boards/batts pressed to different densities to make flexible batts or rigid boards.

Cotton batts (Blue Jean)

Cotton insulation is increasing in popularity as an environmentally preferable option for insulation. It has an R-value of around 3.7 (RSI-0.65), a higher value than most fiberglass batts. The cotton is primarily recycled industrial scrap, providing a sustainability benefit. The batts do not use the toxic formaldehyde backing found in fiberglass, and the manufacture is nowhere near as energy intensive as the mining and production process required for fiberglass. Boric acid is used as a flame retardant. A small quantity of polyolefin is melted as an adhesive to bind the product together (and is preferable to formaldehyde adhesives). Installation is similar to fiberglass, without the need for a respirator but requiring some additional time to cut the material. As with any batt insulation, proper installation is important to ensure high energy efficiency.

Advantages

Higher R-Value than typical fiberglass batts
Recycled content, no formaldehyde or other toxic substances, and very low toxicity during manufacture (only from the polyolefin)
May help qualify for LEED or similar environmental building certification programs
Fibers do not cause itchiness, no cancer risk from airborne fibers

Disadvantages

Difficult to cut. Some installers may charge a slightly higher cost for installation as compared to other batts. This does not affect the effectiveness of the insulation, but may require choosing an installer more carefully, as any batt should be cut to fit the cavity well.
Even with proper installation, batts do not completely seal the cavity against air movement (as with cellulose or expanding foam).
Still requires a vapor retarder or barrier (unlike cellulose)
May be hard to dry if a leak allows excessive moisture into the insulated cavity

Loose-fill (including cellulose)

Loose-fill materials can be blown into attics, finished wall cavities, and hard-to-reach areas. They are ideal for these tasks because they conform to spaces and fill in the nooks and crannies. They can also be sprayed in place, usually with water-based adhesives. Many types are made of recycled materials (a type of cellulose

Cellulose

Cellulose is an organic compound with the formula , a polysaccharide consisting of a linear chain of several hundred to over ten thousand β linked D-glucose units....

) and are relatively inexpensive.

General procedure for retrofits in walls:

Drill holes in wall with hole saw, taking firestops, plumbing pipes, and other obstructions into account. It may be desirable to drill two holes in each wall cavity/joist section, one at the bottom and a second at the top for both verification and top-off.
Pump loose fill into wall cavity, gradually pulling the hose up as the cavity fills.
Cap the holes in the wall.

Advantages

Cellulose insulation
Cellulose insulation
The word cellulose comes from the French word for a living cellule and glucose, which is sugar. Building insulation is low-thermal-conductivity material used to separate the internal climate and sounds of a building from external climate and sounds...

is environmentally preferable (80% recycled newspaper) and safe. It has a high recycled content and less risk to the installer than fiberglass (loose fill or batts).
R-Value 3.4 - 3.8 (RSI-0.60 - 0.67) per inch (imperial units)
Loose fill insulation fills the wall cavity better than batts. Wet-spray applications typically seal even better than dry-spray.
Class I fire safety rating
No formaldehyde-based binders
Not made from petrochemicals nor chemicals with a high toxicity

Disadvantages

Doesn't seal bypasses as well as closed-cell foams do, though wet-spray applications come close.
Weight may cause ceilings to sag if the material is very heavy. Professional installers know how to avoid this, and typical sheet rock is fine when dense-packed.
Will settle over time, losing some of its effectiveness. Unscrupulous contractors may "fluff" insulation using fewer bags than optimal for a desired R-value. Dry-spray (but not wet-spray) cellulose can settle 20% of its original volume. However, the expected settling is included in the stated R-Value. The dense-pack dry installation reduces settling and increases R-value.
R-values stated on packaging are based on laboratory conditions; air infiltration can significantly reduce effectiveness, particularly for fiberglass loose fill. Cellulose inhibits convection more effectively. In general, loose fill is seen as being better at reducing the presence of gaps in insulation than batts, as the cavity is sealed more carefully. Air infiltration through the insulating material itself is not studied well, but would be lower for wet-spray insulations such as wet-spray cellulose.
May absorb moisture.

Types

Rock and slag wool, also known as mineral wool or mineral fiber. Made from rock (basalt, diabase), iron ore blast furnace slag, or recycled glass. Nonflammable. More resistant to airflow than fiberglass. Clumps and loses effectiveness when moist or wet, but does not absorb much moisture, and regains effectiveness once dried. Older mineral wool can contain asbestos, but normally this is in trace amounts.
Cellulose insulation
Cellulose insulation
The word cellulose comes from the French word for a living cellule and glucose, which is sugar. Building insulation is low-thermal-conductivity material used to separate the internal climate and sounds of a building from external climate and sounds...

. Cellulose, is denser and more resistant to air flow than fiberglass. Persistent moisture will weaken aluminium sulphate flame-retardants in cellulose (which are sometimes used in the USA). However, borate fire retardants (used primarily in Australia and commonly in the US) have been in use for more than 30 years and are not affected by moisture in any way. Dense-pack cellulose is highly resistant to air infiltration and is either installed into an open wall cavity using nets or temporary frames, or is retrofitted into finished walls. However, dense-pack cellulose blocks, but does not permanently seal, bypasses, in the way a closed-cell spray foam would. Furthermore, as with batts and blankets, warm, moist air will still pass through, unless there is a continuous near-perfect vapor barrier
Vapor barrier
A vapor barrier is often used to refer to any material for damp proofing, typically a plastic or foil sheet, that resists diffusion of moisture through wall, ceiling and floor assemblies of buildings and of packaging...

.
Wet-spray cellulose insulation is similar to loose-fill insulation, but is applied with a small quantity of water to help the cellulose bind to the inside of open wall cavities, and to make the cellulose more resistant to settling. Spray application provides even better protection against air infiltration and improves wall rigidity. It also allows application on sloped walls, attics, and similar spaces. Wet-spray is best for new construction, as the wall must be allowed to dry completely before sealing with drywall (a moisture meter is recommended). Moist-spray (also called stabilized) cellulose uses less water to speed up drying time.
Fiberglass. Usually pink, yellow, or white. Loses effectiveness when moist or wet, but does not absorb much water. Nonflammable. See Health effects of fiberglass.
Natural insulations such as granulated cork, hemp fibres, grains, all which can be treated with a low toxicity fire and insect retardants
Vermiculite
Vermiculite
Vermiculite is a natural mineral that expands with the application of heat. The expansion process is called exfoliation and it is routinely accomplished in purpose-designed commercial furnaces. Vermiculite is formed by weathering or hydrothermal alteration of biotite or phlogopite...

. Generally gray or brown.
Perlite
Perlite
Perlite is an amorphous volcanic glass that has a relatively high water content, typically formed by the hydration of obsidian. It occurs naturally and has the unusual property of greatly expanding when heated sufficiently...

. Generally white or yellow.
Cotton
Cotton
Cotton is a soft, fluffy staple fiber that grows in a boll, or protective capsule, around the seeds of cotton plants of the genus Gossypium. The fiber is almost pure cellulose. The botanical purpose of cotton fiber is to aid in seed dispersal....

, wool, hemp, corn cobs, strawdust and other harvested natural materials. Not common.
Granulated cork. Cork is as good an insulator as foam. It does not absorb water as it consists of closed cells. Resists fire. Used in Europe.
Most plant based insulations such as wood chips, wood fiber, sawdust, redwood bark, hemlock fiber, balsa wood, hemp fiber, flax fiber, etc. are hygroscopic. Wood absorbs water, which reduces its effectiveness as a thermal insulator. In the presence of moisture, wood is susceptible to mold, mildew, and rot. Careful design of wall, roof and floor systems as done in Europe avoid these problems which are due to poor design.

Regulations

U.S. regulatory standards for cellulose insulation

16 CFR Part 1209 (Consumer Products Safety Commission, or CPSC) - covers settled density, corrosiveness, critical radiant flux, and smoldering combustion.
ASTM Standard C-739 - loose-fill cellulose insulation - covers all factors of the CPSC regulation and five additional characteristics, R-value, starch content, moisture absorption, odor, and resistance to fungus growth.
ASTM Standard C-1149 - Industry standard for self-supported spray-applied cellulose insulation for exposed or wall cavity application - covers density, R-value, surface burning, adhesive strength, smoldering combustion, fungi resistance, corrosion, moisture vapor absorption, odor, flame resistance permanency (no test exists for this characteristic), substrate deflection (for exposed application products), and air erosion (for exposed application products).
16 CFR Part 460 - (Federal Trade Commission regulation) commonly known as the "R-Value Rule," intended to eliminate misleading insulation marketing claims and ensure publication of accurate R-Value and coverage data.

Aerogels

Skylights, solariums and other special applications may use aerogel

Aerogel

Aerogel is a synthetic porous material derived from a gel, in which the liquid component of the gel has been replaced with a gas. The result is a solid with extremely low density and thermal conductivity...

s, a high-performance, low-density material. Silica aerogel has the lowest thermal conductivity

Thermal conductivity

In physics, thermal conductivity, k, is the property of a material's ability to conduct heat. It appears primarily in Fourier's Law for heat conduction....

of any known substance (short of a vacuum), and carbon aerogel absorbs infrared radiation

Radiation

In physics, radiation is a process in which energetic particles or energetic waves travel through a medium or space. There are two distinct types of radiation; ionizing and non-ionizing...

(i.e. heat from sun rays) while still allowing daylight to enter. The combination of silica and carbon aerogel gives the best insulating properties of any known material, approximately twice the insulative protection of the next best insulative material, closed-cell foam.

Straw bales

The use of highly-compressed straw bales as insulation, though uncommon, is gaining popularity in experimental building projects for the high R-value

R-value (insulation)

The R-value is a measure of thermal resistance used in the building and construction industry. Under uniform conditions it is the ratio of the temperature difference across an insulator and the heat flux through it or R = \Delta T/\dot Q_A.The R-value being discussed is the unit thermal resistance...

and low cost of a thick wall made of straw. "Research by Joe McCabe at the Univ. of Arizona found R-value for both wheat and rice bales was about R-2.4 (RSI-0.42) per inch with the grain, and R-3 (RSI-0.53) per inch across the grain. A 23" wide 3 string bale laid flat = R-54.7 (RSI-9.64), laid on edge (16" wide) = R-42.8 (RSI-7.54). For 2 string bales laid flat (18" wide) = R-42.8 (RSI-7.54), and on edge (14" wide) = R-32.1 (RSI-5.66)" (Steen et al.: The Straw Bale House, 1994). Using a straw bale in-fill sandwich roof greatly increases the R value. This compares very favorably with the R-19 (RSI-3.35) of a conventional 2 x 6 insulated wall. When using straw bales for construction, the bales must be tightly-packed and allowed to dry out sufficiently. Any air gaps or moisture can drastically reduce the insulating effectiveness.

Reflective insulation and radiant barriers

Reflective insulation and radiant barriers reduce the radiation of heat to or from the surface of a material. Radiant barriers will reflect radiant energy. A radiant barrier by itself will not affect heat conducted through the material by direct contact or heat transferred by moist air rising or covection. For this reason, trying to associate R-values

R-value (insulation)

with radiant barriers is difficult and inappropriate. The R-value test measures heat transfer through the material, not to or from its surface. There is no standard test designed to measure the reflection of radiated heat energy alone. Radiated heat is a significant means of heat transfer; the sun's heat arrives by radiating through space and not by conduction or convection. At night the absence of heat (i.e. cold) is the exact same phenomenon, with the heat radiating described mathematically as the linear opposite. Radiant barriers prevent radiant heat transfer equally in both directions. However, heat flow to and from surfaces also occurs via convection

Convection

Convection is the movement of molecules within fluids and rheids. It cannot take place in solids, since neither bulk current flows nor significant diffusion can take place in solids....

, which in some geometries is different in different directions.

Reflective aluminum foil is the most common material used as a radiant barrier. It has no significant mass to absorb and retain heat. It also has very low emittance values "E-values" (typically 0.03 compared to 0.90 for most bulk insulation) which significantly reduces heat transfer by radiation.

Types of radiant barriers

Foil or foil laminates.
Foil-faced polyurethane or foil-faced polyisocyanurate panels.
Foil-faced polystyrene. This laminated, high density EPS is more flexible than rigid panels, works as a vapor barrier, and works as a thermal break. Uses include the underside of roof sheathing, ceilings, and on walls. For best results, this should not be used as a cavity fill type insulation.
Foil-backed bubble pack. This is thin, more flexible than rigid panels, works as a vapor barrier, and resembles plastic bubble wrap with aluminum foil on both sides. Often used on cold pipes, cold ducts, and the underside of roof sheathing.
Light-colored roof shingles and reflective paint. Often called cool roofs, these help to keep attics cooler in the summer and in hot climates. To maximize radiative cooling at night, they are often chosen to have high thermal emissivity, whereas their low emissivity for the solar spectrum reflects heat during the day.
Metal roofs; e.g., aluminum or copper.

Radiant barriers can function as a vapor barriers and serve both purposes with one product.

Materials with one shiny side (such as foil-faced polystyrene) must be positioned with the shiny side facing an air space to be effective. An aluminum foil radiant barrier can be placed either way - the shiny side is created by the rolling mill during the manufacturing process and does not affect the reflectivity of the foil material. As radiant barriers work by reflecting infra-red energy, the aluminum foil would work just the same if both sides were dull.

Types of reflective insulation

Reflective insulation is commonly made of either aluminum foil attached to some sort of backing material or two layers of foil with foam or plastic bubbles in between creating an airspace to reduce convective heat transfer also. The aluminum foil component in reflective insulation will reduce radiant heat transfer by up to 97%. As reflective insulation incorporates an airspace to reduce convective heat flow, it carries a measurable R-Value.

Advantages

Very effective in warmer climates
No change thermal performance over time due to compaction, disintegration or moisture absorption
Thin sheets takes up less room than bulk insulation
Can act as a vapor barriers
Non-toxic/non-carcinogenic
Will not mold or mildew
Radon retarder, will limit radon penetration through the floor

Disadvantages

Must be combined with other types of insulation in very cold climates
May result in an electrical safety hazard where the foil comes into contact with faulty electrical wiring

Urea-formaldehyde foam (UFFI) and panels

Most states have outlawed urea-formaldehyde

Urea-formaldehyde

Urea-formaldehyde, also known as urea-methanal, named so for its common synthesis pathway and overall structure, is a non-transparent thermosetting resin or plastic, made from urea and formaldehyde heated in the presence of a mild base such as ammonia or pyridine...

insulation since the early 1980s because it releases formaldehyde gas, causing indoor air quality

Indoor air quality

Indoor air quality is a term referring to the air quality within and around buildings and structures, especially as it relates to the health and comfort of building occupants....

problems. The chemical bond between the urea and formaldehyde is weak, resulting in degradation of the foam cells and emission of toxic formaldehyde gas into the home over time. Furthermore, some manufacturers used excess formaldehyde to ensure chemical bonding of all of the urea. Any leftover formaldehyde would escape after the mixing. Since emissions are highest when the urea-formaldehyde is new and decrease over time, houses that have had urea-formaldehyde within their walls for years or decades do not require remediation.

UFFI is an inexpensive and high R-value insulator that regains effectiveness when dried after having absorbed moisture. Its open-cell structure is a good acoustic insulator. It provides little mechanical strength, as the material is weak and brittle. Water and vapor permeates it easily. See and

Asbestos

Asbestos is a set of six naturally occurring silicate minerals used commercially for their desirable physical properties. They all have in common their eponymous, asbestiform habit: long, thin fibrous crystals...

once found common use as an insulation material in homes and buildings because it is fireproof, a good thermal and electrical insulator, and resistant to chemical attack and wear. It has been found that asbestos can cause cancer when in friable form (that is, when likely to release fibers into the air - when broken, jagged, shredded, or scuffed). Some people exposed to asbestos develop cancer.

When found in the home, asbestos often resembles grayish-white corrugated cardboard coated with cloth or canvas, usually held in place around pipes and ducts with metal straps. Things that typically might contain asbestos:

Boiler and furnace insulation.
Heating duct wrapping.
Pipe insulation ("lagging").
Ducting and transite pipes within slabs.
Acoustic ceilings.
Textured materials.
Resilient flooring.
Blown-in insulation.
Roofing materials and felts.

Spray polyurethane foam (SPF)

All polyurethane foams are composed of petrochemicals. Foam insulation often uses hazardous chemicals with high human toxicity, such as isocyanates, benzene and toluene. The foaming agents no longer use ozone-depleting substances. Personal Protective Equipment is required for all people in the area being sprayed to eliminate exposure to isocyanates which constitute about 50% of the foam raw material.

Fiberglass

Fiberglass is the most common residential insulating material, and is usually applied as batts of insulation, pressed between studs. Health and safety issues include potential cancer risk from exposure to glass fibers, formaldehyde off-gassing from the backing/resin, use of petrochemicals in the resin, and the environmental health aspects of the production process. Green building practices shun Fiberglass insulation.

The World Health Organization has declared fiber glass insulation as potentially carcinogenic (WHO, 1998). In October 2001, an international expert review by the International Agency for Research on Cancer

International Agency for Research on Cancer

The International Agency for Research on Cancer is an intergovernmental agency forming part of the World Health Organisation of the United Nations....

(IARC) re-evaluated the 1988 IARC assessment of glass fibers and removed glass wools from its list of possible carcinogens by downgrading the classification of these fibers from Group 2B (possible carcinogen) to Group 3 (not classifiable as to carcinogenicity in humans). All fiber glass wools that are commonly used for thermal and acoustical insulation are included in this classification. IARC noted specifically: "Epidemiologic studies published during the 15 years since the previous IARC Monographs review of these fibers in 1988 provide no evidence of increased risks of lung cancer or mesothelioma (cancer of the lining of the body cavities) from occupational exposures during manufacture of these materials, and inadequate evidence overall of any cancer risk."

The IARC downgrade is consistent with the conclusion reached by the U.S. National Academy of Sciences, which in 2000 found "no significant association between fiber exposure and lung cancer or nonmalignant respiratory disease in the MVF [man-made vitreous fiber] manufacturing environment." However, manufacturers continue to provide cancer risk warning labels on their products, apparently as indeminfication against claims.

However, the literature should be considered carefully before determining that the risks should be disregarded. The OSHA chemical sampling page provides a summary of the risks, as does the NIOSH Pocket Guide.

Miraflex is a new type of fiberglass batt that has curly fibers that are less itchy and create less dust. You can also look for fiberglass products factory-wrapped in plastic or fabric.

Fiberglass is energy intensive in manufacture. Fiberglass fibers are bound into batts using adhesive binders, which can contain phenol formaldehyde, a hazardous chemical known to slowly off-gas from the insulation over many years. The industry is mitigating this issue by switching to binder materials not containing phenol formaldehyde; some manufacturers offer agriculturally-based binder resins made from soybean oil. Formaldehyde-free batts and batts made with varying amounts of recycled glass (some approaching 50% post-consumer recycled content) are available.

Loose-fill cellulose

Cellulose is 100% natural and 75–85% of it is made from recycled newsprint. Health issues (if any) appear to be minor, and most concerns around the flame retardants and mold potential seem to be misrepresentations.

Cellulose is classified by OSHA as a dust nuisance during installation, and the use of a dust mask is suggested.
Cellulose is treated with a flame retardant and insect repellent, usually boric acid
Boric acid
Boric acid, also called hydrogen borate or boracic acid or orthoboric acid or acidum boricum, is a weak acid of boron often used as an antiseptic, insecticide, flame retardant, as a neutron absorber, and as a precursor of other chemical compounds. It exists in the form of colorless crystals or a...

and sometimes borax to resist insects and rodents. Boric acid has a toxicity comparable to table salt.
Mold has been seen as a potential concern. According to the Cellulose Manufacturer's Association, "One thing that has not contributed to mold problems is the growing popularity of cellulose insulation among knowledgeable home owners who are interested in sustainable building practices and energy conservation. Mycology experts (mycology is the study of mold) are often quoted as saying: “Mold grows on cellulose.” They are referring to cellulose the generic material that forms the cell walls of all plants, not to cellulose insulation. Unfortunately, all too often this statement is taken to mean that cellulose insulation is exceptionally susceptible to mold contamination. In fact, due to its favorable moisture control characteristics and other factors associated with the manufacturing process relatively few cases of significant mold growth on cellulose insulation have been reported. All the widely publicized incidents of serious mold contamination of insulation have involved fiber insulation materials other than cellulose.".
Moisture is always a concern for homes, and the wet-spray application of cellulose may not be a good choice in particularly wet climates unless the insulation can be verified to be dry before drywall is added. In very wet climates the use of a moisture meter will ensure proper installation and eliminate any installation mold issues (almost any insulation that becomes and remains wet can in the future cause a mold issue). The dry-spray application is another option for very wet climates, allowing for a faster installation (though the wet-spray cellulose has an even higher R-value and can increase wall rigidity).
The toxicity of cellulose during raw material generation, manufacture, installation, and continued use seems to therefore be substantially lower than other insulations such as fiberglass and foam.

U.S. Health and Safety Partnership Program

In May 1999, the North American Insulation Manufacturers Association began implementing a comprehensive voluntary work practice partnership with the U.S. Occupational Safety and Health Administration (OSHA). The program, known as the Health and Safety Partnership Program, or HSPP, promotes the safe handling and use of insulation materials and incorporates education and training for the manufacture, fabrication, installation and removal of fiber glass, rock wool and slag wool insulation products. (See health effects of fiberglass). (For authoritative and definitive information on fiber glass and rock and slag wool insulation, as well as the HSPP, consult the North American Insulation Manufacturers Association (NAIMA) website (www.naima.org).)

Categories

Consideration of materials used

Spray polyurethane foam (SPF)

Advantages

Disadvantages

Advantages of closed-cell over open-cell foams

Types

Insulating concrete forms

Rigid panels

Structural insulated panels

Advantages

Disadvantages

Fiberglass batts and blankets (Glass wool
Glass wool
Glass wool or fiberglass insulation is an insulating material made from fiberglass, arranged into a texture similar to wool. Glass wool is produced in rolls or in slabs, with different thermal and mechanical properties....

)

Types

Batts as the common choice of residential insulator in the United States

Natural fiber

Wood fiber

Cotton batts (Blue Jean)

Advantages

Disadvantages

Loose-fill (including cellulose)

Advantages

Disadvantages

Types

Regulations

Aerogels

Straw bales

Reflective insulation and radiant barriers

Types of radiant barriers

Types of reflective insulation

Advantages

Disadvantages

Urea-formaldehyde foam (UFFI) and panels

Asbestos

Spray polyurethane foam (SPF)

Fiberglass

Loose-fill cellulose

U.S. Health and Safety Partnership Program

See also

Categories

Consideration of materials used

Spray polyurethane foam (SPF)

Advantages

Disadvantages

Advantages of closed-cell over open-cell foams

Types

Insulating concrete forms

Rigid panels

Structural insulated panels

Advantages

Disadvantages

Fiberglass batts and blankets (Glass woolGlass woolGlass wool or fiberglass insulation is an insulating material made from fiberglass, arranged into a texture similar to wool. Glass wool is produced in rolls or in slabs, with different thermal and mechanical properties....)

Types

Batts as the common choice of residential insulator in the United States

Natural fiber

Wood fiber

Cotton batts (Blue Jean)

Advantages

Disadvantages

Loose-fill (including cellulose)

Advantages

Disadvantages

Types

Regulations

Aerogels

Straw bales

Reflective insulation and radiant barriers

Types of radiant barriers

Types of reflective insulation

Advantages

Disadvantages

Urea-formaldehyde foam (UFFI) and panels

Asbestos

Spray polyurethane foam (SPF)

Fiberglass

Loose-fill cellulose

U.S. Health and Safety Partnership Program

See also

Fiberglass batts and blankets (Glass wool
Glass wool
Glass wool or fiberglass insulation is an insulating material made from fiberglass, arranged into a texture similar to wool. Glass wool is produced in rolls or in slabs, with different thermal and mechanical properties....

)