The Helical Tripleye Chain Shackle is a robust and essential component designed for helical anchoring applications. Its tripleye eyenut style ensures secure and versatile connections, enhancing the stability and reliability of anchoring systems. Coated with a galvanized finish that meets ASTM A-153 standards, this shackle offers superior corrosion resistance, ensuring longevity even in challenging environments.
With a tensile strength of 70,000 lb (31,751.47 kg), the Helical Tripleye Chain Shackle is engineered for high-stress applications. It’s important to note that these ultimate strength ratings apply only to properly installed anchors. Any deviation, specifically a failure to install within 5° of alignment with the guy load, can significantly reduce the shackle’s strength and effectiveness.
Weighing 3.528 lb (1.6 kg), this shackle is both lightweight and sturdy, making it manageable for handling and installation while providing the necessary strength for secure anchoring. Its efficient design ensures that it meets the demands of various industrial applications without compromising on performance.
The logistical aspects of the Helical Tripleye Chain Shackle are also optimized for efficiency. It is packaged in standard units of 10 per package, with a pallet quantity of 600, which streamlines inventory management, transportation, and deployment for large-scale projects or multiple site requirements.
For those needing detailed specifications and installation guidance, additional resources are typically available. These might include product manuals, installation guides, or technical support, providing comprehensive information to ensure proper utilization and optimal performance of the shackle in specific applications.
In summary, the Helical Tripleye Chain Shackle is a reliable and durable solution for helical anchoring needs. Its galvanized coating, high tensile strength, and practical design make it a preferred choice for a wide range of industrial applications. While it is not EU RoHS compliant, its robust construction and efficiency in logistical handling make it an invaluable component in secure anchoring systems.
