The 1-1/2X200 CHEM+ XLPE 200SD BLK HOSE by GATES CORPORATION is engineered for chemical transfer applications. With a diameter of 1-1/2 inches and a length of 200 feet, this hose is designed to handle a wide range of chemicals safely. The XLPE construction provides excellent resistance to abrasion and chemical degradation, ensuring longevity and reliability. This hose meets industry standards for chemical handling, making it suitable for various industrial applications. Its flexibility allows for easy routing in tight spaces, while the robust design ensures it can withstand demanding conditions.
Description
RECOMMENDED FOR: Tank truck, barge, ship, or storage tank transfer of a variety of chemical products. Chem Master™ Plus XLPE contains a wire helix for full suction capability, as well as for routing hoses through tight bends. Its Modified Cross–linked Polyethylene tube stock is 'best in class' for maintaining a tight seal with stainless steel fittings, and is designed for cleaning with 'open–end' 50 PSI steam or in a bath containing 10% (NaOH) @ +212°F (+100°C). Cleaning in place (CIP) methods may be used. Applications include over 950 basic chemicals that are building blocks for numerous chemicals used in a variety of industries.
Features:
- CAUTION: For applications requiring greater than 90% sulfuric acid contact Denver Product Application (303) 744–5070. Chem Master™ Plus XLPE is designed to withstand fluid temperatures to +250°F (+121°C); however, the rating is dependent on the specific chemical conveyed. Contact Denver Product Application (303) 744–5070 for any chemical above +125°F (+52°C). Not recommended for 'closed steam' cleaning.
- For applications requiring greater than 90% sulfuric acid contact Denver Product Application (303) 744–5070.
- Additional color covers available on special order.
- Reference Gates Chemical Resistance Table for proper hose selection.
- Chem Master™ Plus XLPE CR contains a monofilament helix for suction and crush resistant capability, as well as for routing hoses through tight bends.
