Fire-Retardant Containment Mesh
The Fire Retardant Mesh is our flagship safety solution, meticulously designed for
high-risk construction environments. Unlike standard meshes, this product integrates
advanced passive flame-retardant technology directly into the fiber matrix – while it
may be ignited under extreme conditions, it can automatically self-extinguish rapidly
without any active fire-suppression intervention.
Fiber Plastic Geogrid
Fiber Plastic Geogrid
★ 5.0 · 2 Reviews
Our next-generation Engineering-Grade Flame Retardant Safety Netting is meticulously designed for high-standard global construction and industrial infrastructure. Beyond being a simple physical barrier against falls, it represents an integrated safety solution combining ultra-high tensile strength with advanced self-extinguishing technology. Engineered with modified high-density polymers, our netting maintains structural integrity under extreme dynamic impacts and self-extinguishes within seconds of fire contact, providing a dual shield for high-value project assets and workforce lives. Rigorously tested for international weatherability and load-bearing standards, it is your premier choice for mitigating project risks and ensuring absolute site compliance.
Advanced Subgrade Reinforcement Technology
Providing exceptional soil interlock and load distribution for large-scale civil engineering and foundation stability.
Mechanical Interlock & Friction
The extruded coarse surface creates superior friction within the soil matrix.
- Stress Resistance: High-tenacity fibers withstand massive fill soil pressure.
- Shear Limitation: Effectively restricts lateral soil extrusion and foundation uplift.
- Stability: Maintains aggregate position under dynamic and static loads.
Load Diffusion Efficiency
Engineered to transform vertical foundation loads into a uniform distribution.
- Reinforced Cushion: High stiffness promotes uniform transmission to soft soil layers.
- Bearing Capacity: Dramatically improves the load-bearing potential of weak foundations.
- Stiffness Optimization: Increases the overall rigidity of the compression layer.
Settlement & Deformation Control
Critical for adjusting and managing foundation deformation over long-term use.
- Non-Uniform Settlement: Minimizes risks of differential settlement in complex terrains.
- Structural Longevity: Preserves the integrity of the upper infrastructure.
- Strain Management: High tensile strength at low elongation (2% and 5% strain).
Seismic Energy Absorption
A flexible composite structure designed for resilience in earthquake-prone zones.
- Energy Dissipation: Absorbs and disperses seismic energy through the flexible grid matrix.
- Ductility: Retains structural bond even under significant ground vibration.
- Safety Assurance: Proven performance in seismic hazard mitigation for foundations.
Technical Specifications: RMXS TGSG Series High-Strength Geogrid
| Specification Item | TGSG 50-50 | TGSG 100-100 | TGSG 150-150 | TGSG 200-200 |
|---|---|---|---|---|
| Material | High-Tenacity Warp-Knitted Polyester Fiber | |||
| Dimensions (Width/Length) | Width: 2m, 4m, 6m | Length: Customizable to Project Scale | |||
| Aperture Size (mm) | Approx. 65 x 65 mm (Regular Coarse Pattern) | |||
| Available Colors | Black (Standard), Blue, Green, or Customized | |||
| Ultimate Tensile Strength (kN/m) Longitudinal & Transverse | ≥ 50 | ≥ 100 | ≥ 150 | ≥ 200 |
| Elongation at Nominal Strength (%) | ≤ 16% | |||
| Tensile Strength @ 2% Strain (kN/m) | ≥ 17 | ≥ 35 | ≥ 52 | ≥ 69 |
| Tensile Strength @ 5% Strain (kN/m) | ≥ 34 | ≥ 70 | ≥ 104 | ≥ 138 |
Customer Reviews (Top 5)
Field performance feedback derived from global procurement managers and infrastructure contractors. These testimonials represent the typical performance standards and safety benchmarks achieved by Ruimin products in high-risk engineering environments.
★★★★★
Maria Gonzalez · Chile
We utilized RMXS TGSG 200-200 geogrid for a major highway widening project. It performed exceptionally in soft soil conditions, reducing differential settlement by 31% compared to projections. The material’s stability during installation improved crew efficiency by 20%, ensuring we met strict deadlines while exceeding industry standards. A highly reliable solution for roadworks.
★★★★★
James Carter · USA
For a complex mountain slope stabilization project, we specified RMXS TGSG 50-50. Rigorous testing confirmed its 50kN/m tensile strength and superior durability in corrosive soil environments, meeting all relevant ASTM standards. The technical team's specialized guidance for steep-slope applications halved our troubleshooting time. The project successfully cleared high-standard state inspections with zero issues.
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Ready to elevate your site safety standards? Connect with our engineering team today. We analyze your project needs to deliver a compliant, cost-effective protection strategy.
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