Reflective tape can be adhered to strips of radiant barrier to make it a contiguous vapor barrier or, alternatively, radiant barrier can be perforated for vapor transmittance. One sided radiant barrier may be attached to insulating materials, such as polyisocyanurate, rigid foam, bubble insulation, or oriented strand board (OSB). The radiant barrier may be one or two sided. The foil may be coated for resistance to the elements or for abrasion resistance. In building applications, this surface is typically a very thin, mirror-like aluminum foil. Because thermal energy is also transferred by conduction and convection, in addition radiation, radiant barriers are often supplemented with thermal insulation that slows down heat transfer by conduction or convection.A radiant barrier reflects heat radiation (radiant heat), preventing transfer from one side of the barrier to another due to a reflective, low emittance surface. Also, this report covers market segmentation by major market verdors, types, applications/end users and geography(North America, East Asia, Europe, South Asia, Southeast Asia, Middle East, Africa, Oceania, South America).Ī radiant barrier is a type of building material that reflects thermal radiation and reduces heat transfer. The prime objective of this report is to provide the insights on the post COVID-19 impact which will help market players in this field evaluate their business approaches. Sol-blanket™ Insulation is effective at reflecting both visible light and invisible radiation.The global Radiant Barrier and Reflective Insulation market was valued at 695.6 Million USD in 2021 and will grow with a CAGR of 5.01% from 2021 to 2027, based on Research newly published report. Many homeowners are unaware that radiant heat is transferred between the plywood beneath your shingles to your insulation below in the infrared spectrum. Reflectivity isn’t measured by traditional insulation as it doesn’t possess that quality which is why it’s so beneficial to add a radiant barrier to protect your home from radiant heat. While the actual R-Value of Sol Blanket™ is relatively low the Effective R-value is around 13 when it’s reflective properties are calculated in.
Many of our competitors products merely consist of Aluminum and a backing material which has no actual R-value. The double-sided foam core is around 8 Millimeters thick and has an actual R-Value of around 3 conservatively. Sol-Blanket™ can possess a real, measurable R-value due to the fact that it is composed of five layers: a Closed-Cell Polyethylene Core sandwiched between Perforated Aluminum Sheeting and Polyethylene Backing. Sol-Blanket™ has an actual R-value, unlike our competitors radiant barrier products. It helps boost the thermal efficiency of mass insulation and helps prevent conductive and convective heat transfer in addition to the radiant heat benefits. Please note that this product does not replace the need for mass insulation.
This is more than just attic foil, it is a reflective insulation that has a layer of aluminum on both sides to reflect up to 97% of radiant heat and a center core of closed-cell polyethylene foam which gives the Sol-Blanket Insulation™ added R-Value to resist radiant heat transfer, meaning that it also has thermal resistance just like traditional insulation. Some people refer to reflective insulation as “attic foil”. Now the same material can be utilized in your home. Firefighters use aluminum coated blankets to deploy as emergency shelters as a last resort when their lives are endangered. This product was utilized by NASA in the Apollo and Gemini missions to keep astronauts shielded from the intense heat and cold fluctuations encountered in space. The technology behind Sol-Blanket Insulation™ was initially created by NASA in 1954 as a reflective and lightweight material.
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