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HDPE: High density polyethylene (HDPE) refers to the thermoplastic polymer produced from the monomer ethylene. HDPE piping has a high strength-to-density ratio and highly bendable, allowing for pipe to be coiled. HDPE is lightweight, flexible, inexpensive and corrosion resistant.
HDPE, is a natural gas-derived thermoplastic known for its impressive tensile strength, corrosion resistance, and impact resistance. These traits make it the ideal material choice for piping in a wide range of applications including pressure and non-pressure pipe, conduit and drainage.
PVC is a fairly durable vinyl polymer while HDPE is a thermoplastic made from petroleum. They are both considered plastics. When comparing failure ratings, PVC has shown to be higher than HDPE. PVC has a rating of one in 48,650 events compared to HPDE with one in 10,000,000.
Country Of Origin : India
High-density polyethylene (HDPE) hoses are among the most widely used forms of pipework in various industrial and domestic applications. This popularity stems from HDPE's numerous beneficial properties, such as its impressive tensile strength, resistance to corrosion and impact, and flexibility. As manufactured from thermoplastic polymer — specifically, polyethylene derived from the monomer ethylene — HDPE hoses are capable of meeting the demanding needs across different fields. In particular, HDPE surpasses many traditional materials, such as PVC, in terms of durability and performance, making it an essential component for modern piping systems.
HDPE hoses are crafted from high-density polyethylene, a thermoplastic made through the polymerization of ethylene monomers. This process creates long chains of ethylene molecules, forming a robust, highly interconnected polymer network that bestows HDPE with standout mechanical properties.
The versatility of HDPE hoses makes them particularly suited for a broad range of industrial and agricultural applications. Key uses include, but are not limited to:
While both HDPE and PVC are classified as durable plastic materials, a direct comparison reveals significant advantages of HDPE, specifically in terms of failure rates. PVC exhibits a higher failure rate (one in 48,650 events) compared to HDPE's much lower failure rate (one in 10,000,000 events). This stark contrast points to a higher dependability of HDPE in various applications.
HDPE hoses come in diverse dimensions to accommodate different requirements: - Diameter Ranges: From small diameters (1/2 inch) suitable for domestic use, to large diameters (48 inches) for industrial use. - Length Options: Standard lengths vary from 20 feet to 50 feet, with the possibility for custom lengths on request. - Wall Thickness: Available in multiple thickness categories to handle varying pressure loads, typically ranging from SDR 11 to SDR 26.
HDPE hoses are categorized by pressure ratings, denoting their capacity to handle internal pressure: - Low Pressure: Suitable for gravity-fed systems and low-pressure irrigation (up to 80 psi). - Medium Pressure: Typically used in residential water systems and moderate industrial applications (80 to 160 psi). - High Pressure: Ideal for high-stress environments such as industrial fluid transfer and high-pressure sprinkler systems (160 to 350 psi).
HDPE hoses exhibit impressive temperature resistance, functioning efficiently in a broad temperature range: - Typical Operating Temperature: -40°F to 140°F (-40°C to 60°C). This makes the material effective in extreme environmental conditions without losing performance characteristics.
The versatility and flexibility of HDPE hoses simplify the installation process: - Trenching: Given the flexibility and coiling capability, HDPE hoses can be easily laid in trench networks, reducing the need for fittings. - Fusion Welding: HDPE can be effectively joined using fusion welding techniques, ensuring leak-proof and durable joints. - Above-Ground Installations: HDPE's UV resistance allows for above-ground installations without significant degradation over time.
