Soil Stabilization and Pavement Reinforcement Technology
Soil Stabilization and Pavement Reinforcement Technology
ESG (Environmental Social Governance) standards are at the core of our technology.
We provide environmentally friendly alternatives for your pavement and foundation projects. Our company has engineered a technology designed to successfully offer infrastructure solutions without the environmental challenges.
ESG (Environmental Social Governance) standards are at the core of our technology.
We provide environmentally friendly alternatives for your pavement and foundation projects. Our company has engineered a technology designed to successfully offer infrastructure solutions without the environmental challenges.
We have developed our proprietary technology over many years through field testing.
We deliver subgrade, subbase, and base course solutions for paved and unpaved roads, foundations, runways, and other surfaces for the industries, businesses, and governments that need them.
Eco-Friendly
Stronger
Longer Lasting
Cost-Effective
We have developed our proprietary technology over many years through field testing.
We deliver subgrade, subbase, and base course solutions for paved and unpaved roads, foundations, runways, and other surfaces for the industries, businesses, and governments that need them.
Eco-Friendly
Stronger
Longer Lasting
Cost-Effective
InnovaSoil solves the challenge of maintaining a balance between performance and cost, while satisfying environmental regulations for building material manufacturers, design engineers, and contractors.
Innovasoil solves the challenge of maintaining a balance between performance and cost, while satisfying environmental regulations for building material manufacturers, design engineers, and contractors.
Innovative Technology that Benefits All Involved
A significant benefit of our technology is that it decreases construction time and cost by using most of the materials already in place. This means these materials do not require excavation and transfer to the building site, saving time, labor, and money.
Using our technology, your operation can build durable roads with reduced layer thickness to withstand weather and wear in the long term.
Innovative Technology that Benefits all Involved
A significant benefit of our technology is that it decreases construction time and cost by using most of the materials already in place. This means these materials do not require excavation and transfer to the building site, saving time, labor, and money.
Using our technology, your operation can build durable roads with reduced layer thickness to withstand weather and wear in the long term.
What the Numbers Say
Shortens construction time
Diminishes layer thickness
Lessens CO2 emissions
Decreases stabilization costs
Cuts overall construction costs
What the Numbers Say
Shortens construction time
Diminishes layer thickness
Lessens CO2 emissions
Decreases stabilization costs
Cuts overall construction costs
What Makes InnovaSoil Technologies Different?
Unlike polymers and inorganic or petroleum-based products which temporarily hold soil materials together, our technology uses a complex, innovative, organic chemical process, resulting in the permanent bonding of soil particles.
We develop and manufacture a proprietary organic formula using a complex and concentrated blend of elements that are specifically engineered to bond soil. The result is a catalytic reaction that permanently unites the soil particles at the molecular level into a dense, cement-like layer that resists water penetration, weathering, and wear.
What Makes InnovaSoil Technologies Different?
Unlike polymers and inorganic or petroleum-based products which temporarily hold soil materials together, our technology uses a complex, innovative, organic chemical process, resulting in the permanent bonding of soil particles.
We develop and manufacture a proprietary organic formula using a complex and concentrated blend of elements that are specifically engineered to bond soil. The result is a catalytic reaction that permanently unites the soil particles at the molecular level into a dense, cement-like layer that resists water penetration, weathering, and wear.