How Uniaxial Geogrids Reinforce Retaining Walls

I. Technical Principles

Uniaxial geogrids utilize oriented polymer molecular alignment to create high-strength grid structures that effectively transfer and disperse stress. Key mechanisms include:

Stress Dispersion: Rapidly distributes localized loads across wider soil areas, reducing destructive stress concentration.
Soil Stabilization: Frictional resistance between grid and soil prevents filler subsidence/sliding, enhancing self-stabilization.
Earth Pressure Reduction: Improves backfill self-stability behind retaining walls, minimizing wall deformation.

II. Construction Procedures

1. Foundation Preparation

Level and compact subgrade to meet design bearing capacity requirements.
Pre-excavate trenches for concrete strip foundations along wall alignment.

2. Casting Concrete Strip Foundation

Pour concrete in pre-dug trenches with panel榫slots.
Install settlement joints matching wall joint locations.

3. Retaining Wall Construction

Lay masonry panels on foundation with mortar (dry-stacked horizontally, layered vertically).
Cut geogrids to designed lengths (integer multiples of longitudinal rib length).
Align transverse ribs parallel to wall panels, connect ends to wall reinforcements using plastic connectors.
Tension geogrids until taut, secure free ends with U-shaped steel pins.
Dump fill materials vertically (≥15cm initial coverage before machinery operation).
Compact in 20-25cm layers to specified density.
Repeat until reaching wall top elevation.

III. Critical Specifications

Site Prep: Compacted, level surface free of protrusions.
Installation: Wrinkle-free deployment; continuous primary load-bearing direction.
Fill Material: ≤15cm particle size per design.
Protection: Backfill within 48 hours post-deployment.
Drainage: Prevent water accumulation in reinforced zones.

IV. Case Study: Lime-Soil Reinforced Wall

Materials: Uniaxial HDPE geogrid + 6% lime-content fill.
Process: Foundation → Geogrid deployment → Layered filling/compaction (20-25cm layers).
Outcome: 32% higher stability, 28% lower earth pressure, 40% maintenance cost reduction.

V. Conclusion

Uniaxial geogrids significantly enhance wall performance through high tensile strength (100-200MPa) and low elongation (2-5%). Strict adherence to construction protocols ensures optimal load-transfer efficiency and long-term durability.