AZEK VAST® Pavers are the most durable, easiest to install and most socially responsible pavers in the world.
Simply a Better Paver
AZEK VAST® Pavers are breaking the traditional mentality that landscape pavers must be made from concrete or clay. Made from up to 95% recycled materials, patented AZEK VAST Pavers are the most technologically advanced and socially responsible paver alternatives in the industry.
AZEK VAST Pavers help projects earn LEED certification easier than any other pavement. AZEK VAST Pavers outperform other pavements, such as pavers with fly ash, by more than ten-times.
95% Post-Consumer Recycled Content
AZEK VAST Pavers are the first composite material in the world, made almost entirely of recycled materials with the physical strength, durability and natural appearance to replace concrete. AZEK VAST Pavers utilizes up to 95% post-consumer recycled materials (scrap tires and plastics).
Installs Three-Times Faster
AZEK VAST’s patented grid system enables contractors to work more efficiently, saving time and reducing the amount of labor required for paver installation. Installers insert AZEK VAST pavers into the grid—in any designed pattern, and the pavers are automatically aligned for excellent results. Contractors routinely reduce paver installation time by over 65 percent with AZEK VAST Paver.
One-Third the Weight of Concrete
AZEK VAST Pavers weigh 8.2 pounds per square foot, versus 30 or more pounds per square foot for concrete permeable pavers. This weight advantage makes AZEK VAST Pavers less energy-intensive and less costly to transport, easier to work with on job sites, and great for use in flat and green roof applications.
Engineered to Last
Manufactured with AZEK VAST’s patented composite masonry technology, AZEK VAST Pavers fulfill the most demanding requirements for hardscape beauty, design versatility, durability, and installation efficiency. AZEK VAST’s composite material imparts deep colors, excellent slip resistance and unbeatable strength.
- Parking Lots
- Flat Roof
- Other Low Speed Vehicular Applications