Slope Protection Cement Mat
Core Advantages:
• Minimal Construction Requirements: No need for on-site concrete mixing, formwork, or heavy machinery. The material is manually laid and then cured with water, making it especially suitable for complex terrains, mountainous areas, or emergency response scenarios.
• Rapid Setting: Remains shapeable and adjustable within 2 hours after watering, achieving over 80% of final strength within 24 hours. Construction time is reduced by more than 60% compared to traditional slope protection methods.
• Lightweight and Eco-Friendly: Transported as rollable mats with a unit weight of only 6–20 kg/m². Material consumption is reduced by 90% compared to conventional concrete, resulting in low carbon emissions and minimal ecological impact.
A Slope Protection Cement Mat (also known as concrete canvas or cementitious flexible blanket) is a flexible construction material composed of a composite of specialty cement and three-dimensional fibrous fabric. In its dry state, it is soft and foldable like a blanket, facilitating transportation and deployment; upon contact with water, it undergoes a hydration reaction, hardening within 24 hours into a durable, waterproof, fire-resistant, and erosion-resistant concrete layer. It is widely used in slope protection, soil and water conservation, and emergency engineering applications.
I. Core Advantages:
• Minimal Construction Requirements: No need for on-site concrete mixing, formwork, or heavy machinery. The material is manually laid and then cured with water, making it especially suitable for complex terrains, mountainous areas, or emergency response scenarios.
• Rapid Setting: Remains shapeable and adjustable within 2 hours after watering, achieving over 80% of final strength within 24 hours. Construction time is reduced by more than 60% compared to traditional slope protection methods.
• Lightweight and Eco-Friendly: Transported as rollable mats with a unit weight of only 6–20 kg/m². Material consumption is reduced by 90% compared to conventional concrete, resulting in low carbon emissions and minimal ecological impact.
• Crack-Resistant and Durable: An internal 3D fiber network effectively inhibits crack propagation. After curing, compressive strength can reach up to 5,000 psi (approximately 34.5 MPa), with excellent tensile and impact resistance.
• Versatile Environmental Adaptability: Can be applied in rain, underwater, at low temperatures, or even in seawater, making it ideal for emergency repairs and operations in remote areas.
II. Main Applications:
1. Slope Protection: Used for reinforcing slopes along mountain roads, railways, reservoirs, fish ponds, etc., to prevent rain erosion and soil loss.
2. Hydraulic Lining: Suitable for channel, ditch, and artificial lake lining, providing both seepage prevention and ecological benefits.
3. Emergency Response: Rapid construction of flood embankments, temporary landslide support, and road repairs after disasters; dozens of square meters can be completed by two workers within one hour.
4. Industrial Protection: Fire-resistant and flame-retardant layers for cable trenches in power plants and chemical plants, complying with safety regulations.
5. Ecological Engineering: Integrated with vegetation planting to achieve combined "engineering + ecology" restoration, promoting green recovery.
