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1. High strength, low deformation geotube geotube
2. Durability: steady property, not easy to resolved, air slaked and can keep the original property long term
3. Anti-erosion: anti-acid, anti-alkali, resists insects and mould geotube
4. Permeability: could control the sieve size to retain certain permeability geotube
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1.Product Description
2.Product Feature
1. Strong drainage (equivalent to one meter thick gravel drainage).
2. High tensile strength.
3.Reduce the probability of geotextile inserting into mesh core, and maintain long-term water conductivity.
5. Corrosion resistance, acid and alkali, long service life.
6. Convenient construction, shorten the construction period and reduce costs.
3.Project Cases
Typical Applications include:
Highways: vertical edge-of-carriageway drains intercept the lateral flow of ground water. Modern fin drains reduce excavation, reduce backfill quantities and reduce installation time. In-slope drainage increases geotechnical stability.
Retaining walls and bridge abutments: to reduce pore water pressure and avoid backfill saturation.
Engineered landfills: with the additional requirement of long-term chemical resistance and high compressive strength.
Tunnels: ground-water-seepage interception between rock face and the tunnel lining.
Buried structures: vertical and horizontal drains for basements, culverts, car parks, reservoirs, etc.
1.Product Description
2.Product Feature
1. Strong drainage (equivalent to one meter thick gravel drainage).
2. High tensile strength.
3.Reduce the probability of geotextile inserting into mesh core, and maintain long-term water conductivity.
5. Corrosion resistance, acid and alkali, long service life.
6. Convenient construction, shorten the construction period and reduce costs.
3.Project Cases
Typical Applications include:
Highways: vertical edge-of-carriageway drains intercept the lateral flow of ground water. Modern fin drains reduce excavation, reduce backfill quantities and reduce installation time. In-slope drainage increases geotechnical stability.
Retaining walls and bridge abutments: to reduce pore water pressure and avoid backfill saturation.
Engineered landfills: with the additional requirement of long-term chemical resistance and high compressive strength.
Tunnels: ground-water-seepage interception between rock face and the tunnel lining.
Buried structures: vertical and horizontal drains for basements, culverts, car parks, reservoirs, etc.