HENGST
1015008B
$46.00 USD
Tags:
- HENGST
- Material:1015008B
- Model:R928052769
- 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 9.30LA P25-A00-0-M (1015008B) is a hydraulic filter element designed to optimize filtration performance in hydraulic systems. This component is crucial for maintaining system cleanliness by removing contaminants, thus ensuring the longevity and efficiency of the machinery it serves. The filter element features a length of 93.5 mm, an outer diameter of 35 mm, and an inner diameter of 12.3 mm, making it suitable for various applications where space constraints are a consideration. It is constructed with P25 filter media, specifically designed using filter paper to provide reliable retention capacity and dirt holding capabilities while minimizing pressure loss within the system. The Hengst hydraulic filter element is built to withstand collapse pressures up to 30 bar, thanks to its robust design class and standard support cage material. This ensures durability and reliability even under demanding conditions. The seal code M indicates the use of NBR (nitrile butadiene rubber) seals, which offer excellent resistance to oils and other fluids commonly encountered in hydraulic systems. This particular model does not include suitability for HFC or HFA fluids and does not comply with DIN24550 standards, making it essential for users to verify compatibility with their specific hydraulic fluid requirements before application. The Hengst 9 series filter element is engineered without a support cage option but maintains its structural integrity through its design specifications. Overall, the Hengst 9.30LA P25-A00-0-M provides effective filtration solutions for enhancing system performance by protecting components from particulate contamination and ensuring optimal operational conditions within hydraulic systems.
The Hengst 9.30LA P25-A00-0-M (1015008B) is a hydraulic filter element designed to optimize filtration performance in hydraulic systems. This component is crucial for maintaining system cleanliness by removing contaminants, thus ensuring the longevity and efficiency of the machinery it serves. The filter element features a length of 93.5 mm, an outer diameter of 35 mm, and an inner diameter of 12.3 mm, making it suitable for various applications where space constraints are a consideration. It is constructed with P25 filter media, specifically designed using filter paper to provide reliable retention capacity and dirt holding capabilities while minimizing pressure loss within the system. The Hengst hydraulic filter element is built to withstand collapse pressures up to 30 bar, thanks to its robust design class and standard support cage material. This ensures durability and reliability even under demanding conditions. The seal code M indicates the use of NBR (nitrile butadiene rubber) seals, which offer excellent resistance to oils and other fluids commonly encountered in hydraulic systems. This particular model does not include suitability for HFC or HFA fluids and does not comply with DIN24550 standards, making it essential for users to verify compatibility with their specific hydraulic fluid requirements before application. The Hengst 9 series filter element is engineered without a support cage option but maintains its structural integrity through its design specifications. Overall, the Hengst 9.30LA P25-A00-0-M provides effective filtration solutions for enhancing system performance by protecting components from particulate contamination and ensuring optimal operational conditions within hydraulic systems.
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.