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Fiberglass reinforced plastic (FRP) gutter, also known as fiberglass drainage channels, are drainage facilities made of composite materials. FRP drainage channels can be used to solve the rapid drainage of surface rainwater and the discharge of acidic and alkaline wastewater. They have excellent corrosion resistance, are lightweight, have high strength, a long service life, and high drainage efficiency.
| Dimensions (mm) | Internal width (mm) | Deep inside (mm) | Height (mm) | Width (mm) |
|---|---|---|---|---|
| U150 * 150*1000 | 132 | 114 | 150 | 160 |
| U200 * 200*1000 | 170 | 164 | 200 | 210 |
| U200 * 300*1000 | 165 | 270 | 300 | 210 |
| U250 * 250*1000 | 220 | 220 | 250 | 260 |
| U300 * 300*1000 | 270 | 264 | 300 | 310 |
| U400 * 400*1000 | 355 | 357 | 400 | 410 |
• Municipal Engineering: Urban roads, plazas, pedestrian streets, and parks.
• Industry: Factory workshops and industrial parks for wastewater collection.
• Commercial: Shopping mall parking lots, hotels, and office buildings.
• Residential: Community roads, gardens, and green spaces.
• Special Environments: Chemical zones, coastal areas, and cold regions.
✔ Over 10 years of experience in composite materials R&D.
✔ Strict quality control from raw materials to finished products.
✔ Diverse specifications and professional customization (OEM/ODM).
✔ Low MOQ, trial orders available, and fast delivery.
✔ Highly competitive pricing and excellent value.
We are an enterprise specializing in the R&D, production, and sales of fiberglass reinforced plastic (FRP) environmental protection products. Our core products include FRP profiles, reinforcing bars, water tanks, gratings, and drainage channels. We focus on green infrastructure and industrial environmental protection, providing full-chain services from customization to installation.
Our products combine high strength, light weight, and acid/alkali resistance, with a service life of over 50 years. This aligns with global green building standards, reducing energy consumption during operation and maintenance by 30% compared to traditional materials.
