CFS structures can integrate high-performance insulation materials, helping improve the thermal efficiency of buildings and reduce long-term energy costs.

• Designers must account for the material’s thin wall profiles, lateral bracing requirements, and work with engineers familiar with CFS standards and best practices.

Yes. CFS is an excellent solution for buildings over 4 stories, offering a more efficient and cost-effective alternative to traditional steel and concrete systems.

Steel is non-combustible. When used with fire-rated assemblies and sheathing, CFS systems offer excellent fire performance and help meet strict fire codes.

Absolutely. CFS is increasingly used for residential projects, including single-family homes, townhomes, and multifamily units, offering long-term durability and flexibility.

CFS construction must comply with local building codes and national standards, including the International Building Code (IBC) and the AISI S100 North American Specification.

CFS is 100% recyclable, generates minimal jobsite waste, and supports energy-efficient design — making it an eco-friendly solution.

CFS requires accurate engineering, proper bracing, and trained crews. As a precision material, it must be installed according to exact specifications.

CFS components are typically galvanized or coated, providing excellent corrosion resistance, especially when properly installed and detailed.

CFS components are typically galvanized or coated, providing excellent corrosion resistance, especially when properly installed and detailed.

Yes. CFS performs well in seismic conditions due to its ductility, light weight, and the ability to absorb and distribute stress during movement.

Definitely. CFS retains its structural integrity under high heat, humidity, cold, and wind — ideal for a wide range of climates.

Yes. CFS can be used in hybrid construction with concrete, masonry, and even wood, depending on the structural and aesthetic goals of the project.

CFS allows for off-site fabrication and fast on-site assembly, often reducing the overall construction schedule by several weeks.

Yes. Because it’s lightweight and easy to work with, CFS is often used in retrofits to reinforce or modernize existing buildings.

Yes. Its lighter weight compared to traditional materials can reduce the size, complexity, and cost of building foundations.

CFS is non-combustible, doesn’t warp or shrink, and is resistant to termites, mold, and moisture. It also allows for straighter walls and longer spans with better durability.

Yes. Many insurers offer lower premiums for CFS buildings due to their fire resistance, durability, and lower risk profile compared to combustible wood framing.

Unlike wood, steel does not ignite or fuel fire spread. CFS systems help meet strict fire codes, reduce fire load, and protect occupants and assets.

CFS generally outlasts wood. It’s unaffected by rot, pests, and moisture and can maintain structural integrity for decades with minimal wear or maintenance.

Yes. Steel won’t swell, crack, or decay. CFS buildings require significantly less maintenance over their lifespan, offering long-term cost savings and reliability.