GSE Polylock
GSE® Polylock is a high-density polyethylene (HDPE) profile designed to securely anchor geomembranes to concrete structures. This innovative solution provides a strong mechanical connection that ensures the integrity and performance of containment systems in various applications, including landfills, reservoirs, and wastewater treatment plants.
GSE Polylock features an extruded HDPE profile with anchor legs that embed into the concrete during the pouring process. The smooth HDPE surface remains exposed, serving as the ideal attachment point for geomembranes through extrusion welding. This creates a dependable, seamless joint, eliminating the irregularities and potential leak paths associated with traditional bolt and batten connections.
Engineered for durability, GSE Polylock offers exceptional chemical resistance and maintains its flexibility even in extreme temperatures, ensuring long-term performance in harsh environments. The product’s versatility allows it to be cut, shaped, and bent to fit various configurations and radii, making it suitable for complex site conditions.
GSE Polylock is designed for easy installation. It can be cast or inserted into wet concrete, with the anchor legs providing a secure embedment. The exposed surface is then ready for geomembrane welding, creating a continuous, leak-proof barrier critical for environmental protection and containment.
Ideal for applications where the integrity of a geomembrane liner is essential, GSE Polylock is used in landfills, reservoirs, and water treatment facilities. Its cost-effective design and robust performance make it a preferred choice for ensuring long-term protection and environmental safety.
Key points:
Securely anchors HDPE geomembranes to concrete.
Can be cast or inserted into wet concrete, ready for extrusion welding.
Provides a reliable, seamless connection, preventing leaks.
Can be cut, shaped, and bent for various configurations and site conditions.
Maintains flexibility and performance in extreme temperatures.
Offers a durable, economical solution for geomembrane attachment in critical applications.