HENGST
1015325B
$199.00 USD
Tags:
- HENGST
- Material:1015325B
- Model:R928053299
- Summary:Hydraulic-Filter Element
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 2.Z025 H6PZ-B00-0-M (1015325B) is a hydraulic filter element designed for high-performance filtration applications. This component serves as the core of a filter system, where its primary function is to facilitate the actual filtration process. It is engineered with multilayer glass fiber material, known for its superior retention capacity and dirt holding capabilities while maintaining minimal pressure loss. The filter's dimensions are compact, with a length of 93.5 mm, an outer diameter of 33 mm, and an inner diameter of 12.3 mm, making it suitable for various hydraulic systems where space is constrained. Its design class as a filter element and its nominal size of Z025 ensure compatibility with specific filtration requirements. The Hengst filter element features a robust construction capable of withstanding a collapse pressure rating of up to 330 bar, ensuring reliability under demanding conditions. The seal designation is NBR, providing effective sealing performance in hydraulic applications. Additionally, the product includes a support cage made from standard materials for enhanced durability and structural integrity during operation. This hydraulic filter element is part of series 2 and boasts a design configuration coded as H6PZ, indicating its specialized application in systems requiring high filtration efficiency. It is also suitable for use with HFC (hydraulic fluid compatible) and HFA (hydraulic fluid aqueous) fluids but does not conform to DIN24550 standards nor does it come without a support cage option. Overall, the Hengst 2.Z025 H6PZ-B00-0-M offers reliable performance in maintaining system cleanliness and protecting sensitive components from contaminants in hydraulic environments.
The Hengst 2.Z025 H6PZ-B00-0-M (1015325B) is a hydraulic filter element designed for high-performance filtration applications. This component serves as the core of a filter system, where its primary function is to facilitate the actual filtration process. It is engineered with multilayer glass fiber material, known for its superior retention capacity and dirt holding capabilities while maintaining minimal pressure loss. The filter's dimensions are compact, with a length of 93.5 mm, an outer diameter of 33 mm, and an inner diameter of 12.3 mm, making it suitable for various hydraulic systems where space is constrained. Its design class as a filter element and its nominal size of Z025 ensure compatibility with specific filtration requirements. The Hengst filter element features a robust construction capable of withstanding a collapse pressure rating of up to 330 bar, ensuring reliability under demanding conditions. The seal designation is NBR, providing effective sealing performance in hydraulic applications. Additionally, the product includes a support cage made from standard materials for enhanced durability and structural integrity during operation. This hydraulic filter element is part of series 2 and boasts a design configuration coded as H6PZ, indicating its specialized application in systems requiring high filtration efficiency. It is also suitable for use with HFC (hydraulic fluid compatible) and HFA (hydraulic fluid aqueous) fluids but does not conform to DIN24550 standards nor does it come without a support cage option. Overall, the Hengst 2.Z025 H6PZ-B00-0-M offers reliable performance in maintaining system cleanliness and protecting sensitive components from contaminants in hydraulic environments.
The Filter Element is the central component in a filter, where the actual filtration takes place. The key filter parameters such as retention capacity, dirt holding capacity and pressure loss are determined by the Filter Element and the filter media used.