How to Achieve a High Whole-Wall Thermal Performance With Fox Block ICFs
The whole-wall thermal performance of ICF ensures a comfortable living and working space with energy savings and manageable bills.
How to Design a Structure that Minimizes Virus Transmission in the Workplace
How ICF Reduces Production Time and Costs When Building a Movie Theater
ICF construction expedites the production of a movie theater and reduces labor costs over both wood-frame and CMU construction.
How to Build a Wind-Resistant Home with Fox Blocks ICFs
Tragically, between 2000 and 2017 there were 894 wind and 1417 tornado-related deaths. In 2017, 36 percent of the wind and 63 percent of the tornado-related fatalities happened either in a mobile or permanent home. A wind-resistant design is critical to a home’s integrity and a family’s safety.
How Will This Year's Vote on the IECC Affect Your Next Project?
Today, there are many voices making waves in building codes and green/energy-efficient design; none are more important than the views of local officials that vote on hundreds of proposals to change the International Energy Conservation Code (IECC).
House Framing 101 - How to Select the Best Framing Option for Your Home
How to Measure and Plan for Energy Efficiency in Your Building
As climate change becomes a greater issue, architects are under increasing pressure to design sustainable, yet high-performance buildings. In this blog, we go over some effective strategies you can use during the design process to enhance your building’s energy efficiency
How To Easily Build a Hurricane-Resistant Home with ICF Construction
ICF construction offers an easy way to achieve hurricane-resistant wall systems that protect against wind, flying debris, and flooding.
What is a HERS Index Score and How to Achieve a Good HER Rating
Home energy efficiency is crucial in today’s environmentally conscious and economically driven world.
What is a Shear Wall and How Does it Protect Your Building?
Construction of a shear wall includes materials and design that enhance a structure’s stiffness, strength, and ductility in order to withstand lateral forces from severe winds and earthquakes.