HENGST
1051128B
$2,823.00 USD
Tags:
- HENGST
- Material:1051128B
- Model:R928018347
Quantity in stock: 0
***Disclaimer: The following summary contains information gathered from various sources such as product descriptions, technical specifications and catalogs. While efforts have been made to provide accurate details, inaccuracies may occur. It is advised to verify all information by contacting Hengst directly.***
The Hengst 17.900 H3XL-H0V-0-M (1051128B) is a high-performance filter element designed for demanding applications. With dimensions of 497 mm in length, 76 mm in outer diameter, and 48.2 mm in inner diameter, this filter is engineered to fit seamlessly into various systems requiring precise filtration solutions. It features a multilayer glass fiber material known as H..XL, which ensures efficient filtration and durability under high-pressure conditions. The filter's design class is specified as a filter element with a nominal size of 900, making it suitable for large-scale operations that demand high flow rates and robust performance. This model includes an NBR seal designation coded as M, ensuring compatibility with specific fluids and operating environments. The support cage is made from stainless steel (coded V), providing additional strength and resistance to corrosion, which is crucial for maintaining structural integrity over time. The Hengst filter is designed to withstand a collapse pressure rating of up to 250 bar, indicating its capability to perform reliably even under extreme pressure differentials. Its suitability with hydraulic fluids HFC and HFA further broadens its application range, making it an ideal choice for hydraulic systems where fire-resistant or water-containing fluids are used. This particular model does not conform to DIN24550 standards but compensates with its robust design and material quality tailored for specialized needs. Additionally, the inclusion of a support cage enhances its stability during operation, ensuring consistent filtration performance without compromising on safety or efficiency. Overall, the Hengst 17 series filter element provides a reliable solution for industries requiring advanced filtration technology combined with exceptional durability and adaptability across various fluid types and system demands.
The Hengst 17.900 H3XL-H0V-0-M (1051128B) is a high-performance filter element designed for demanding applications. With dimensions of 497 mm in length, 76 mm in outer diameter, and 48.2 mm in inner diameter, this filter is engineered to fit seamlessly into various systems requiring precise filtration solutions. It features a multilayer glass fiber material known as H..XL, which ensures efficient filtration and durability under high-pressure conditions. The filter's design class is specified as a filter element with a nominal size of 900, making it suitable for large-scale operations that demand high flow rates and robust performance. This model includes an NBR seal designation coded as M, ensuring compatibility with specific fluids and operating environments. The support cage is made from stainless steel (coded V), providing additional strength and resistance to corrosion, which is crucial for maintaining structural integrity over time. The Hengst filter is designed to withstand a collapse pressure rating of up to 250 bar, indicating its capability to perform reliably even under extreme pressure differentials. Its suitability with hydraulic fluids HFC and HFA further broadens its application range, making it an ideal choice for hydraulic systems where fire-resistant or water-containing fluids are used. This particular model does not conform to DIN24550 standards but compensates with its robust design and material quality tailored for specialized needs. Additionally, the inclusion of a support cage enhances its stability during operation, ensuring consistent filtration performance without compromising on safety or efficiency. Overall, the Hengst 17 series filter element provides a reliable solution for industries requiring advanced filtration technology combined with exceptional durability and adaptability across various fluid types and system demands.