The history of metal buildings dates back to the late 1700s with the construction of fireproof mill structures for the agricultural and textile industries in Britain. During the next 100 years, hundreds of portable iron houses were sold to gold rush pioneers, and the first steel-framed skyscrapers were built.
In the early 20th century, the oil industry recognized the benefits of metal structures for use as oil derrick covers and tool sheds (commonly called “doghouses”). Before long, metal framing caught on as a popular choice in the construction of warehouses and factories.
During World War II, the Quonset hut provided inexpensive, mobile housing for soldiers in battle. Shipped as a kit that could be assembled quickly and easily, the building provided excellent shelter from the elements and was lightweight and easy to transport.
The advent of computer-aided design (CAD) in the 1960s paved the way for steel buildings to begin offering more customized designs, features, shapes and sizes.
As materials, products and design capabilities have continued to improve, metal buildings have progressively become larger and more sophisticated.
Today, metal building systems are being designed for nearly every imaginable building application – from shopping centers and churches to government facilities and commercial office buildings.
The affordability, design flexibility and energy efficiency of metal building systems also make them an increasingly appealing solution for a broad range of educational, training and school buildings.
This white paper outlines the benefits of metal buildings for public and private school building projects. It includes the perspectives of builders who have constructed numerous school facilities as well as owners involved in the construction process.
DOWNLOAD THIS FREE STAR BUILDING SYSTEMS WHITE PAPER
Related Stories
| Mar 26, 2012
Ball State University completes nation's largest ground-source geothermal system
Ball State's geothermal system will replace four aging coal-fired boilers to provide renewable power that will heat and cool 47 university buildings, representing 5.5-million-sf on the 660-acre campus.
| Mar 22, 2012
Hawaiian architecture firm chooses FRP trellis system over traditional materials
MGA Architecture plans to add five more trellis systems on the neighboring building.
| Mar 22, 2012
Moline Public Library uses copper as an exterior building material
Architects incorporate decorative copper panels to create the look of a heavy plate copper shingle.
| Mar 21, 2012
10 common data center surprises
Technologies and best practices provide path for better preparation.
| Mar 21, 2012
ABI remains positive for fourth straight month
Highest spike in inquiries for new projects since 2007.
| Mar 21, 2012
Iowa’s Mercy Medical Center’s new Emergency Department constructed using Lean design
New Emergency Department features a "racetrack" design with a central nurses' station encircled by 19 private patient examination rooms and 2 trauma treatment rooms.
| Mar 21, 2012
Clary, Hendrickson named regional directors for HDR Architecture
New directors will be responsible for expanding and strengthening the firm throughout the central region.
| Mar 20, 2012
FMI releases 2012 first quarter construction outlook
The last time construction put in place was at this level was 2000-2001.
| Mar 20, 2012
Ceco Building Systems names Romans marketing director
Romans joins Ceco Building Systems with over 15 years in marketing and customer service.
| Mar 20, 2012
UT Arlington launches David Dillon Center for Texas Architecture
Symposium about Texas architecture planned for April.