Fiberglass is the most common insulation used in modern times. Because of how it is made, by effectively weaving fine strands of glass into an insulation material, fiberglass is able to minimize heat transfer. The main downside of fiberglass is the danger of handling it. Since fiberglass is made out of finely woven silicon, glass powder and tiny shards of glass are formed. These can cause damage to the eyes, lungs, and even skin if the proper safety equipment isn't worn. Nevertheless, when the proper safety equipment is used, fiberglass installation can be performed without incident.
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Fiberglass is an excellent non-flammable insulation material, with R-values ranging from R-2.9 to R-3.8 per inch. If you are seeking a cheap insulation this is definitely the way to go, though installing it requires safety precautions. Be sure to use eye protection, masks, and gloves when handling this product.
Mineral wool actually refers to several different types of insulation. First, it may refer to glass wool which is fiberglass manufactured from recycled glass. Second, it may refer to rock wool which is a type of insulation made from basalt. Finally, it may refer to slag wool which is produced from the slag from steel mills. The majority of mineral wool in the United States is actually slag wool.
Mineral wool can be purchased in batts or as a loose material. Most mineral wool does not have additives to make it fire resistant. However, it is a non-combustible material, so can prevent the spread of fires up to 1,400 degrees Fahrenheit, but may not always be the best option when extreme heat is present. Mineral wool has an R-value ranging from R-2.8 to R-3.5.
Cellulose insulation is perhaps one of the most eco-friendly forms of insulation. Cellulose is made from recycled cardboard, paper, and other similar materials and comes in loose form. Cellulose has an R-value between R-3.1 and R-3.7. Some recent studies on cellulose have shown that it might be an excellent product for use in minimizing fire damage. Because of the compactness of the material, cellulose contains next to no oxygen within it. Without oxygen within the material, this helps to minimize the amount of damage that a fire can cause.
So not only is cellulose perhaps one of the most eco-friendly forms of insulation, but it is also one of the most fire resistant forms of insulation. However, there are certain downsides to this material as well, such as the allergies that some people may have to newspaper dust. Also, finding individuals skilled in using this type of insulation is relatively hard compared to, say, fiberglass. Still, cellulose is a cheap and effective means of insulating.
While not the most abundant of insulations, polyurethane foams are an excellent form of insulation. Nowadays, polyurethane foams use non-chlorofluorocarbon (CFC) gas for use as a blowing agent. This helps to decrease the amount of damage to the ozone layer. They are relatively light, weighing approximately two pounds per cubic foot (2 lb/ft^3). They have an R-value of approximately R-6.3 per inch of thickness. There are also low density foams that can be sprayed into areas that have no insulation. These types of polyurethane insulation tend to have approximately R-3.6 rating per inch of thickness. Another advantage of this type of insulation is that it is fire resistant.
Polystyrene is a waterproof thermoplastic foam which is an excellent sound and temperature insulation material. It comes in two types, expanded (EPS) and extruded (XEPS) also known as Styrofoam. The two types differ in performance ratings and cost. The more costly XEPS has a R-value of R-5.5 while EPS is R-4. Polystyrene insulation has a uniquely smooth surface which no other type of insulation possesses.
Typically the foam is created or cut into blocks, ideal for wall insulation. The foam is flammable and needs to be coated in a fireproofing chemical called Hexabromocyclododecane (HBCD). HBCD has been brought under fire recently for health and environmental risks associated with its use.
Although the items listed above are the most common insulation materials, they are not the only ones used. Recently, materials like aerogel (used by NASA for the construction of heat resistant tiles, capable of withstanding heat up to approximately degrees Fahrenheit with little or no heat transfer), have become affordable and available. One in particular is Pyrogel XT. Pyrogel is one of the most efficient industrial insulations in the world. Its required thicknesses are 50% ' 80% less than other insulation materials. Although a little more expensive than some of the other insulation materials, Pyrogel is being used more and more for specific applications. Other materials used can be ceramic fiber, flexible closed cell sheet insulation and mass loaded vinyl.
The best material for steam pipe insulation is the type you can remove to perform regular inspections. While fiberglass has been a popular choice in the past, it cannot be taken off to allow for inspections, which means it's no longer the best material for steam pipes.
A Thermaxx insulation jacket is an ideal option for steam pipe insulation. These jackets are easily installed and removed when necessary without requiring specialized skills, and the insulation types used are determined by your specific requirements. We offer Thermaxx jackets in numerous normal pipe sizes, ranging from 2 to 24 inches. Our jackets are designed have a touch temperature of 120 degrees or less to reduce energy loss and be more skin-friendly.
Finally, our jackets are the best for steam pipe insulation because they are customizable. If you have a pipe that is larger than a standard size, oddly-shaped or otherwise non-standard, we can design and manufacture one specific for your system. Our jackets help to keep moisture out, improving the lifetime of the insulation and underlying pipes, resulting in increased cost-effectiveness.
Mineral wool and fiberglass are two common types of thermal insulation. Mineral wool is made from steel slag and basalt, making it more eco-friendly than other insulation types. A manufacturer makes it by spinning molten rock quickly while blowing cool air on it. Characteristics of mineral wool insulation include the following:
Fiberglass is made by using fine glass fibers from materials like soda ash, borax, silica sand, and limestone. Check out these fiberglass characteristics:
Fiberglass and mineral wool have advantages and disadvantages, making it crucial to weigh all the factors.
Cellulose is another type of pipe insulation. It is made with recycled newspapers, cardboard, and magazines, will not itch during installation and comes in several R-values. Cellulose works as thermal insulation and has a high resistance to mold and mildew. Cellulose also has the benefit of being fire retardant.
Fiberglass offers improved protection against mildew and mold compared to cellulose and has an easier installation process. That said, cellulose has a more in-depth R-value.
Cellulose may settle after installation, which can cause it to lose its R-value. On the other hand, fiberglass is known for retaining its original form and can last longer.
Finally, cellulose is fire retardant like fiberglass, but it can pose other safety risks because it starts turning to dust over time. As a result, the chemicals used to make the cellulose are released into the air and can be harmful.
Traditional steam pipe insulation is often made from fiberglass. You have to use it with an all-service jacket, which is a reinforced paper that is laminated to a layer of lightweight foil. These conventional materials offer some benefits, such as being lightweight and low-cost. However, traditional insulation can present challenges like:
When we say 'advanced pipe insulation,' we are referring to removable thermal jackets. Thermal insulation jackets offer numerous benefits that make them one of the best choices for pipe insulation. Advantages of using our Thermaxx jackets include:
When choosing pipe insulation, it's crucial to consider all the factors. Everything from the materials and costs to where you plan to use the insulation play essential roles in the type of insulation you will need for your pipes. Factors to consider include:
With the effects of climate change becoming more evident, extreme temperature conditions are more common. Many cities around the world are experiencing variations in weather patterns that they aren't accustomed to, which has manifested itself in the degradation of infrastructure, like energy demands that can cripple power grids. Many homeowners are feeling the burden, struggling to maintain comfortable home temperatures as high oil prices inflate energy bills.
Whether installing radiant barriers or putting in a few cool walls, homeowners can take many avenues to make their homes more energy-efficient, but insulation is important. Thermal insulation is responsible for making the internal temperature of a building stable, and finding an efficient material can help to reduce the energy required for heating/cooling the house, conversely creating lower energy bills. This can also have a positive effect on the environment by reducing the burning of fuel in power plants, which will reduce the emission of greenhouse gasses.
Thermal insulation plays a key role in making a home more energy-efficient, but finding the right material can be tricky. From bulky blankets of fiberglass to futuristic aerogels, there's a myriad of options to choose from. Here is our guide to understanding the differences between thermal insulation materials.
Made up of molten glass and spun into fibers, fiberglass remains one of the most common forms of insulation due to its adaptability, affordability, and effectiveness. Usually dulled out in batts that are installed in pieces or rolls that are rolled out, fiberglass can also come in a loose-fill form blown out using a machine as well as rigid boards and rolls for ducts. Fiberglass thermal insulation is both fire- and moisture-resistant, and much of the material is recyclable.
Due to its commonality, the mass production of fiberglass has made it one of the cheaper options for thermal insulation material, and its adaptive properties make it ideal for DIY projects. The thermal resistance, or R-value, of fiberglass ranges around 2.2 to 2.7 per inch of thickness, but comparatively speaking that's low when stacked to other available options. Over time that value can decrease due to sagging or settling.
Fiberglass insulation is the most ubiquitous option out there when it comes to thermal insulation, but that doesn't mean it's the best for every project.
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While not particularly common, sheep's wool insulation has become an attractive alternative to conventional insulation in recent years thanks to its inherent thermal properties and eco-friendly status. Sheep's wool insulation possesses a typical R-value between 3.5 and 3.8 per inch, putting it on the level with cellulose, mineral wool, and even certain polyurethane insulations.
As a material wool is considered to be extremely sustainable due to the fact that sheep naturally produce it throughout their lives. Carbon also makes up a significant amount of wool's molecular structure (50%) due to the grasses and plants eaten by sheep.
In addition to being an excellent thermal insulator, wool also helps reduce noise transfer'in fact, wool is a natural sound absorber capable of reducing noise by as much as 50%, allowing for a much quieter and comfortable indoor environment.
Composed of rock or slag, mineral wool consists of mostly post-industrial recycled content. Much like fiberglass, mineral wool thermal insulation can come in many forms, from roll and batts to loose-fill, but its R-value sits around 3.0 to 3.3 per inch of thickness. The thermal performance of mineral wool holds up over time, and its high heat manufacturing process strips it of organic matter'making it a poor medium for moisture and mold.
Mineral wool's natural components make it extremely durable and a great choice when considering longevity, but it is more costly on the front end. That extensive, high-heat manufacturing process increases the price and uses a lot of energy, but once installed that energy is recuperated within five months. Mineral wool is also heavy, which can make it less ideal for some projects, but its materials are recyclable and inherently non-combustible, adding to the fire resistance of a building.
While not as ubiquitous as fiberglass, a lot of great options for mineral wool exist on the market, including ROCKWOOL, which transforms volcanic rock into quality stone wool insulation that's both performance tested and ranked high in use among the residential construction market.
'We tend toward ROCKWOOL on all of our projects,' Chris Laumer-Giddens, vice president of the architecture and construction firm LG Squared, told gb&d in a previous article. 'They're making it more accessible to the residential construction market, which is where we spend most of our time. I've tried the other stuff, and it just doesn't have the same performance and usability.'
Cellulose thermal insulation material is growing in popularity due to its highly sustainable nature. Made from primarily recycled paper products reduced to small pieces and fiberized, cellulose typically comes as either loose-fill or dense packed. It has a typical R-value of 3.2 to 3.8 per inch thickness, and its manufacturing process makes it more affordable. Although naturally more flammable, cellulose can be treated with chemicals like boric acid to increase its fire resistance, also making it less desirable to pests and mold.
As a whole cellulose insulation is considered to be one of the most sustainable options on the market, and companies like Greenfiber have embraced that concept, taking steps to help the environment by using less energy consumption in the manufacturing process.
'Greenfiber uses a low-energy manufacturing process that results in materials with the least-embodied energy of most major insulation products. The production process generates little no waste or byproducts because we leverage recovered material to start with,' Jason Todd, director of market development and building science at Greenfiber, previous told gb&d.
Polystyrene is a versatile polymer made up of colorless, transparent thermoplastic. There are two common varieties of polystyrene insulation'extruded and expanded'of which have slightly different manufacturing processes and subsequent characteristics.
In the case of expanded polystyrene (EPS) insulation, blowing agents, steam, and molds are used to expand the polystyrene into the desired form. EPS is the lighter of the two, is thicker, and typically possesses an R-value of around 4.0 per inch of thickness. EPS is extremely versatile and may be used in above-grade construction to insulate floors, walls, roofs, and HVAC systems.
Extruded polystyrene (XPS) insulation, on the other hand, is manufactured using blowing agents, heat, and a specialized extruding machine. XPS has an average R-value of around 5.0 per inch and has a higher water vapor diffusion resistance than EPS insulation, meaning it is not as permeable to air or water. This higher resistance to moisture infiltration makes XPS insulation especially ideal for basements, foundations, and other below-grade applications.
Both types of polystyrene foam boards can be brittle, however, and their upfront costs are more than fiberglass, making them riskier. Their chemical makeup isn't biodegradable and can create toxins when burning, but their high R-value and sound dampening properties makes polystyrene an attractive option.
Polyurethane foam, more commonly marketed as spray foam, is an insulation material that contains low-conductivity gas in its cells. Spray foam comes in two types, open-cell and closed-cell, and the R-value depends on what kind is used. Closed-cell spray foam typically has an R-value around 6 to 7 per inch of thickness. It works well in climates with high humidity due to its tendency to expand and solidify, making it impermeable to moisture. DuPont offers an array of insulating foams through their Great Stuff product line, one of which is their closed-cell polyurethane spray foam, Froth-Pak.
'Froth-Pak is an all-in-one, self-contained, easily portable kit for our professional contractors to quickly and efficiently fill larger gaps and penetrations to seal out moisture, dust, and allergens while improving energy efficiency, building resilience, and comfort for homeowners,' Amy Radka, DuPont's retail marketing director, previously told gb&d.
Open-cell spray foam, on the other hand, is less dense, and the air-filled cells give the material a spongier texture. Open-cell spray foam has a typical R-value of 3.6 to 3.9, and it's not as moisture-resistant as closed-cell, but it is the cheaper of the two options with a greater expansion rate.
Regardless of the form, polyurethane spray foam is considered to be relatively eco-friendly, as it is one of the most energy-efficient insulation materials on the market with its high R-values and penance for longevity. Over time production of polyurethane foams has been refined to decrease the amount of damage that it once had on the environment, and while the verdict is still out on its potential health risks, polyurethane spray foam continues to grow as a popular option for energy-efficient renovations.
Polyisocyanurate foam'also referred to as PIR or polyiso'is a kind of thermoset plastic insulation produced as a closed-cell, rigid, continuous foam board. Most polyiso foam boards feature a facer on one or both sides, with water-resistant foil facers being the most common. Like closed-cell polyurethane foam, PIR has one of the highest R-values on the market and averages between 6 and 6.5 per inch, making it an attractive option for projects targeting high-efficiency standards.
'With an R-value of 6.5 per inch, polyiso's thermal properties surpass other rigid foam plastics by 20 to 70%, making it a clear choice for continuous insulation'a must for any sustainable project, given that HVAC costs often make up the vast majority of a building's energy bill,' Greg Fantin, vice president of marketing at Rmax, previously wrote for gb&d.
Rmax is one of North America's leading providers of polyiso insulation solutions and offers a range of products for both above- and below-grade applications.
Cementitious foam insulation is a type of non-expanding thermal insulation made primarily from magnesium oxide extracted from seawater, supplemented by a marginal amount of water, ceramic talc, and a foaming agent. It is similar to closed-cell polyurethane spray foam in that it becomes rigid and solid after being sprayed into an enclosed space, but unlike many polyurethane foams, cementitious foam insulation is completely nontoxic and does not off-gas VOCs as it cures or after it has dried.
Cementitious foam insulation has a typical R-value of 3.9 per inch of thickness, putting it on par with polystyrene and open-cell polyurethane insulation. Because of its overall composition and the fact that it does not contain any organic materials, cementitious foam is nonflammable and can help projects exceed fire protection requirements.
In addition to being non-combustible, cementitious foams are also moisture- and mold-resistant, making them an excellent insulation choice in regions that regularly experience high humidity and precipitation.
Moving into more innovative territory, aerogel thermal insulating materials aren't necessarily new, but their growing availability has increased their ease of application over the years.
Usually composed of silica aerogels are generally transparent in appearance and have a high gas content that gives them an impressive R-value of 10.3 per inch of thickness. This incredible propensity for low thermal conductivity makes it the most energy-efficient insulation material out there, greatly reducing a building's heating and cooling energy usage.
'The ability to decrease building energy demand overall by using highly effective aerogel based insulation materials made from environmental waste is essential,' Hai Minh Dong, associate professor of mechanical engineering at the National University of Singapore Faculty of Engineering, told gb&d in a previous interview. 'The water repellent property of the aerogels allows them to be adaptable to both dry and rainy weather, and their structure remains stable for more than six months.'
One of the main drawbacks to aerogels, however, is that they can be very brittle, potentially making them more difficult to use in areas with higher tension.
Matt Noel contributed to this article.