Geogrids from Naue: Optimal Solutions for Subgrade Stabilisation and Reinforcement

At Naue, we specialise in providing geogrid solutions crucial for the stabilisation and reinforcement of subgrades. These geogrids are ideal for challenging geotechnical applications where enduring tensile strength and resilience are essential. Our advanced polymer technology combined with precision manufacturing ensures unmatched robustness and longevity of our products.

Our extensive product range, including renowned models like Secugrid®, Secugrid® HS, Combigrid®, and Secugrid® m3, is designed specifically for use in complex geotechnical projects such as civil engineering, road construction, landfill construction, and reinforced earth applications. Our innovative design and use of high-quality materials deliver efficient and reliable solutions for a wide array of soil mechanics challenges.

Naue’s Geogrid Products:

Laid geogrids made of stretched, monolithic polyester (PET) or polypropylene (PP) flat or profile bars with welded junctions. Secugrid® geogrids combine high stiffness and low creep tendency with extreme robustness.

Laid geogrids made of stretched, monolithic polyester (PET) or polypropylene (PP) flat or profile bars with welded junctions. Secugrid® geogrids combine high stiffness and low creep tendency with extreme robustness.

Combigrid® is a composite of a laid geogrid made of stretched, monolithic flat bars with welded junctions and a mechanically bonded and calendered filter geotextile welded within the geogrid structure. Combigrid® is used for stabilisation and reinforcement of soils in many fields of infrastructure, environmental protection, and hydraulic engineering applications.

Combigrid® is a composite of a laid geogrid made of stretched, monolithic flat bars with welded junctions and a mechanically bonded and calendered filter geotextile welded within the geogrid structure. Combigrid® is used for stabilisation and reinforcement of soils in many fields of infrastructure, environmental protection, and hydraulic engineering applications.

They are laid geogrids made of high tenacity polyester filaments with an extruded polyethylene protective coating and welded junctions. Secugrid® HS combines high tensile strength and low creep tendency with extreme robustness and resistance. Secugrid® HS was developed specifically for geotechnical applications in earthworks where tensile strengths of more than 400 kN/m are required.

They are laid geogrids made of high tenacity polyester filaments with an extruded polyethylene protective coating and welded junctions. Secugrid® HS combines high tensile strength and low creep tendency with extreme robustness and resistance. Secugrid® HS was developed specifically for geotechnical applications in earthworks where tensile strengths of more than 400 kN/m are required.

The Naue m3 systems for reinforced slope and retainig wall systems stand for high load-bearing capacity, stability and performance.

The Naue m3 systems for reinforced slope and retainig wall systems stand for high load-bearing capacity, stability and performance.

Commitment to Quality and Sustainability in Geotechnics

Naue combines quality and sustainability with technical innovation. Our geogrids meet the highest industry standards and enhance performance and durability while supporting environmentally friendly construction practices.

We provide bespoke solutions tailored to the specific needs of geotechnical engineers, civil engineers, and planners. From the planning stage to implementation, we offer our expertise in selecting the optimal geogrid for your project.

The Role of Geogrids in Geotechnics and Construction

Geogrids play an essential role in modern geotechnics and construction. Made from a network of polymers, they are employed in various sectors such as road construction, slope stabilisation, and foundation engineering. Their primary function is to stabilise soft or unstable substrates and reinforce the subgrade.

By locking the fill material within their structure, geogrids improve load distribution, reduce settlements, and increase the soil’s load-bearing capacity. They effectively contribute to erosion control and the prevention of soil slippage. Utilising geogrids can avoid costly soil replacement works and shorten construction times, making them a cost-efficient and environmentally friendly alternative in the contemporary construction industry