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Chennai, Tamil Nadu, India
About Us
Contrary to popular belief, Lorem Ipsum is not simply random text. It has roots in a piece of classical Latin literature from 45 BC, making it over 2000 years old.
Contrary to popular belief, Lorem Ipsum is not simply random text. It has roots in a piece of classical Latin literature from 45 BC, making it over 2000 years old.
High-strength geogrid reinforcement solutions that improve load distribution and stability in soils, slopes, and retaining structures across South India.
Geogrids are high-tensile-strength polymer grids, manufactured with open apertures that interlock mechanically with surrounding soil or aggregate particles. This interlocking action distributes applied loads over a wider area and reduces deformation, significantly improving the bearing capacity and stability of reinforced soil structures.
Reinforcement systems using geogrids are used to build mechanically stabilized earth walls, reinforce slopes, and improve load-bearing performance over soft or variable subgrades. They provide a cost-effective alternative to conventional concrete structures in many retaining and foundation applications.
At PJ Construction, our teams design and install uniaxial and biaxial geogrid reinforcement matched to the specific load and stability requirement of each structure, executed with precision and engineering rigour. Every layer is placed to specified length, overlap, and compaction criteria.
We bring reinforcement design expertise, careful installation control, and a proven track record to every geogrid project across South India.
Every geogrid layer spacing and length is calculated against the design load and required factor of safety — not standard spacing assumptions.
We select uniaxial or biaxial geogrid type and strength grade matched to the specific reinforcement function required.
Successfully delivered reinforced soil structures across Tamil Nadu, Karnataka, Andhra Pradesh, and Kerala for roads and retaining walls.
Tension, overlap, and compaction verification are standard at every lift to ensure design performance is achieved.
Our structured, stage-by-stage approach ensures each geogrid layer is placed, tensioned, and compacted correctly before the next lift proceeds — eliminating risk of misalignment or insufficient interlock.
Required geogrid strength, layer spacing, and embedment length are calculated based on the design load, soil properties, and target factor of safety.
The foundation layer is graded and compacted to provide a stable, level base for the first geogrid layer.
Geogrid rolls are placed in the design orientation, tensioned to remove wrinkles, and overlapped per specification at panel and layer joints.
Fill material is placed in controlled lifts over each geogrid layer and compacted to achieve full mechanical interlock between grid and soil particles.
Where required, facing elements such as wrapped geogrid, segmental blocks, or shotcrete are constructed progressively with each reinforced lift.
Compaction testing and layer alignment checks confirm each lift meets design specifications before the structure is loaded or the next lift begins.
Geogrid reinforcement systems are applied wherever soil load-bearing capacity or slope stability needs to be improved cost-effectively.
Mechanically Stabilized Earth (MSE) Walls Reinforced soil retaining walls as a cost-effective alternative to conventional concrete gravity walls.
Reinforced Steep Slopes Building stable slopes steeper than the natural angle of repose using layered geogrid reinforcement.
Soft Subgrade Improvement Distributing loads over weak subgrades for roads, yards, and platform construction.
Embankment Widening Reinforcing existing embankments to support widening without large-scale reconstruction.
Landfill Veneer Reinforcement Stabilizing cover soil on landfill slopes against sliding failure.
Industrial Yard & Platform Construction Improving bearing capacity for heavy equipment laydown areas and container yards.
Reach out to our engineering team for a site assessment and reinforcement design consultation. We'll evaluate your load and stability requirements and propose the most cost-effective geogrid solution for your project.
