For Extra Comfort
High-Performance Fiberglass Building Insulation Batts are intended for use in walls and cathedral ceilings where maximum thermal performance is desired and limited space is available.
Installing High-Performance Fiberglass Building Insulation is an easy, cost effective method to help conserve energy in the residential and commercial new construction, remodeling and reinsulation markets. In addition to its thermal properties, High-Performance Fiberglass Building Insulation also provides excellent acoustical performance. It is compression packaged for ease of handling, and its broad availability of R-values, sizes and facings ensures the right product for the job. High-density sidewall batts are available in sizes to fit standard construction without loss of R-value due to compression.
High-density cathedral ceiling batts allow an airspace between the insulation and roof deck for ventilation. These batts meet the energy-saving requirements of today's codes without requiring changes in construction techniques.
Click Here to visit our Acoustic Performance Interactive Learning Guide
Get Inspired and Learn More
Download Product Specifications, Submittal Forms and SDS here
CertainTeed recommends that its products be installed according to the recommendations of the North American Insulation Manufacturers Association (NAIMA).
Refer to CertainTeed's Lifetime Limited Insulation Warranty for Fiberglass Building Insulation.
CertainTeed insulation products improve building energy efficiency and reduce building energy consumption for the life of the structure. As a result, they help conserve nonrenewable energy sources, decrease dependence on foreign oil and lower greenhouse gas emissions. In addition, the recycled content of CertainTeed fiberglass insulation meets the EPA minimum Recovered Material Guideline for fiberglass products consisting of preconsumer and post-consumer glass cullet.
CertainTeed Sustainable Insulation is GREENGUARD Gold Certified for low chemical emissions into indoor air during product usage.