The combination of Spider Spiral Rope Mesh and TECCO Mesh is often used in geotechnical engineering for rockfall protection, slope stabilization, and other similar applications. Understanding how these two systems work together can provide insight into their effectiveness and benefits. Andesen provides OEM spiral razor barbed wire service and products.
When combined, Spider Spiral Rope Mesh and TECCO Mesh create a comprehensive and effective rockfall netting installation and slope stabilization system. Here’s how they work together:
Primary Layer (Spider Spiral Rope Mesh): The Spider Spiral Rope Mesh acts as the primary impact-absorbing layer. Its spiral structure effectively disperses the energy from rockfalls across a larger area, reducing the stress on any single point.
Secondary Layer (TECCO Mesh): The TECCO System adds an additional layer of strength and durability. It helps to further distribute the energy and provides a robust barrier that prevents smaller rocks and debris from escaping.
Adaptability to Contours: Both meshes are flexible and can adapt to the irregularities of the slope or rock face. This flexibility ensures a close fit, which is essential for effective stabilization.
Anchoring System: The combination of the two meshes is typically secured with an anchoring system that includes rock bolts or soil nails. These anchors penetrate the rock or soil, providing a stable foundation for the meshes.
Corrosion Resistance: Both meshes are usually coated with a corrosion-resistant layer, such as galvanization or PVC coating, ensuring long-term durability even in harsh environmental conditions.
Redundancy: The use of two mesh systems provides redundancy. If one layer is damaged, the other can continue to provide protection, enhancing the overall reliability of the system.
Wide Range of Applications: This combined system is suitable for various applications, including rock netting slope protection, slope stabilization, road and railway protection, and more.
Customizable Solutions: The system can be tailored to specific project requirements, with varying mesh sizes, strengths, and anchoring methods to address different geotechnical challenges.
