The control, or even the desealing of soils, is therefore becoming a key issue in reducing the vulnerability of urban spaces to the effects of current and future climate change. It promotes the water cycle by reducing runoff, and helps reduce the phenomenon of heat islands.
To meet these challenges, JOUPLAST® completes its offer of slabs for mineral or vegetal covering, URBANGRAVEL® and GREENPLAC®, by launching on the market its new URBANIT® range, a relevant and durable solution which ensures the permeability of soils in urban areas.
Composed of 3 100% recycled polyolefin sheets made in France, the URBANIT® JOUPLAST® range is suitable for cobblestones, gravel or plants (lawn or sedum). Compatible with each other, the plates interlock with each other thanks to an integrated attachment system, thus leaving the possibility of creating multi-material urban spaces: 100% cobblestones, mix of cobblestones + gravel or cobblestones + plants.
Stabilizing plate for URBANIT® JOUPLAST® pavers
The URBANIT® JOUPLAST® stabilizing plate for cobblestones provides both perfect support for the cobblestones and remarkable resistance to compression, allowing the passage of light vehicles. Made of 100% recycled polyolefin, it allows you to permanently install a stable and permeable surface.
Stabilizing plate for gravel URBANIT® JOUPLAST®
Perfect for designing quality urban developments and creating a gravelled surface of constant thickness, the URBANIT® JOUPLAST® gravel stabilizer plate promotes the natural and optimal drainage of rainwater. In 100% recycled polyolefin, it makes it possible to implement a draining and driveable surface that does not generate puddles, runoff or ruts.
Stabilizing plate for plants URBANIT® JOUPLAST®
Massive soil sealing causes extreme phenomena such as flooding or overheating in cities. The URBANIT® JOUPLAST® stabilizing plate for plants simplifies the installation of plants in order to reduce the heat island phenomenon. Intended to accommodate grass, sedum… it facilitates the creation of permeable vegetated surfaces in urban areas.