Virtually Engineered Impact Models
For the Redi-Rock Force Protection System
Redi-Rock's Force Protection System is designed using massive Redi-Rock Freestanding concrete blocks, vertical j-bolt connections, and horizontal post-tensioning cables.
For maximum efficiency, each barrier wall must be designed to to meet the perceived threat. Redi-Rock has designed force protection walls for government and nongovernmental customers. Please contact us for more information on how to design for your particular need.
Virtually engineered impact models for the Force Protection System have been completed. Please call the Redi-Rock engineering department at (866) 222-8400 for details.
Design Manual
The Redi-Rock Design Resource Manual is an invaluable resource for any engineer or architect designing a Redi-Rock wall.
Download the Redi-Rock Design Resource Manual today! Due to large file sizes, we've split the DRM into several sections which you can download here:
Gravity Walls: 41"_ 60"_ 9" Setback
Reinforced Walls: 28" Series and PC System
Redi-Rock's Toolbox
Featured Video:
Analysis Software
Did you know that Redi-Rock Wall Analysis Software can help you design Redi-Rock gravity walls? Check out the Analysis Software and view tutorial videos to help you get started.
Designer Tip
Redi-Rock retaining wall blocks look so much like real stone when local colors are applied that your walls will impress developers, city officials and more. Plus, installation is a breeze because massive Redi-Rock blocks fit together like Legos making installation fast and easy! Check out what sets the Redi-Rock system apart on our block tour here.
News
Dec 01, 2011
Custom Tennis/Basketball Court for Home
When the owners of this Washington home wanted to install a tennis/basketball court, their hilly property presented some unique challenges. To create enough space for a court, they needed to contend with a 20-ft. elevation change on the proposed site.
The biggest selling point of the Redi-Rock system was the ability to build the retaining walls without requiring geogrid.
Check out this case studyNov 19, 2011
U of Idaho Stadium Access Walls
When the University of Idaho needed to create access to the lower elevation of the Kibbie Dome stadium, retaining walls nearly 20 feet tall were required.
“Gabion baskets are an older technology, and the newer way (Redi-Rock) won,” explained Scott Becker, engineer with Hodge and Associates.
Check out this case study