HENGST
1010134B
$580.00 USD
Tags:
- HENGST
- Material:1010134B
- Model:R928040996
- 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 1.1000 VS25-A00-0-M (1010134B) is a high-performance hydraulic filter element designed for efficient filtration in hydraulic systems. This component is crucial for maintaining the cleanliness and efficiency of hydraulic fluids, as it determines key filtration parameters such as retention capacity, dirt holding capacity, and pressure loss. The filter media used in this element is designated as VS25, a non-woven fabric that ensures optimal filtration performance. With dimensions of 400 mm in length, 160 mm in outer diameter, and 91.5 mm in inner diameter, it fits seamlessly into compatible systems. This filter element can withstand a collapse pressure rating of up to 30 bar, making it suitable for demanding applications where high-pressure resistance is required. It features an NBR seal (seal code: M), ensuring reliable sealing performance under various operating conditions. The design includes a standard support cage material which provides structural integrity to the filter element. The Hengst 1.1000 VS25-A00-0-M is compliant with DIN24550 standards and suitable for use with HFC and HFA fluids, broadening its applicability across different hydraulic setups. It does not include a support cage by default but maintains robust construction to handle operational stresses effectively. This filter element's nominal size is rated at 1000, indicating its capacity to handle substantial fluid volumes while maintaining filtration efficiency. Overall, this product serves as an essential component for ensuring the longevity and reliability of hydraulic systems by effectively removing contaminants from the fluid stream, thereby protecting sensitive components from wear and damage caused by particulate matter.
The Hengst 1.1000 VS25-A00-0-M (1010134B) is a high-performance hydraulic filter element designed for efficient filtration in hydraulic systems. This component is crucial for maintaining the cleanliness and efficiency of hydraulic fluids, as it determines key filtration parameters such as retention capacity, dirt holding capacity, and pressure loss. The filter media used in this element is designated as VS25, a non-woven fabric that ensures optimal filtration performance. With dimensions of 400 mm in length, 160 mm in outer diameter, and 91.5 mm in inner diameter, it fits seamlessly into compatible systems. This filter element can withstand a collapse pressure rating of up to 30 bar, making it suitable for demanding applications where high-pressure resistance is required. It features an NBR seal (seal code: M), ensuring reliable sealing performance under various operating conditions. The design includes a standard support cage material which provides structural integrity to the filter element. The Hengst 1.1000 VS25-A00-0-M is compliant with DIN24550 standards and suitable for use with HFC and HFA fluids, broadening its applicability across different hydraulic setups. It does not include a support cage by default but maintains robust construction to handle operational stresses effectively. This filter element's nominal size is rated at 1000, indicating its capacity to handle substantial fluid volumes while maintaining filtration efficiency. Overall, this product serves as an essential component for ensuring the longevity and reliability of hydraulic systems by effectively removing contaminants from the fluid stream, thereby protecting sensitive components from wear and damage caused by particulate matter.
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.