HENGST
1019821B
$136.00 USD
Tags:
- HENGST
- Material:1019821B
- Model:R928058461
- 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 10.160LA PWR20-A00-6-V SO3000 (1019821B) is a high-performance hydraulic filter element designed to enhance the efficiency and longevity of hydraulic systems. This model features a multilayer glass fiber material, designated as PWR, which ensures superior filtration by effectively capturing contaminants while maintaining low pressure loss. With dimensions of 143.5 mm in length, 73.5 mm in outer diameter, and 34.5 mm in inner diameter, it is compact yet robust enough for demanding applications. The filter element includes a bypass valve with a cracking pressure of 3 bar and is rated for a collapse pressure of 30 bar, ensuring reliability under high-pressure conditions. The design incorporates an FKM seal code (V), which provides excellent chemical resistance and durability across various operating environments. The nominal size of this filter element is specified as 160LA, indicating its capacity to handle substantial flow rates without compromising performance. It belongs to the series 10 class and features a standard support cage material that contributes to its structural integrity. This product is particularly suitable for applications where maintaining optimal cleanliness levels in hydraulic fluids is critical for system performance and longevity. Its advanced filter media configuration (PWR20) optimizes dirt holding capacity while minimizing the frequency of maintenance interventions required to replace or clean the filter element. Overall, the Hengst 10.160LA PWR20-A00-6-V SO3000 hydraulic filter element is engineered to provide reliable filtration solutions for various hydraulic systems, ensuring efficient operation and protection against potential damage caused by particulate contamination.
The Hengst 10.160LA PWR20-A00-6-V SO3000 (1019821B) is a high-performance hydraulic filter element designed to enhance the efficiency and longevity of hydraulic systems. This model features a multilayer glass fiber material, designated as PWR, which ensures superior filtration by effectively capturing contaminants while maintaining low pressure loss. With dimensions of 143.5 mm in length, 73.5 mm in outer diameter, and 34.5 mm in inner diameter, it is compact yet robust enough for demanding applications. The filter element includes a bypass valve with a cracking pressure of 3 bar and is rated for a collapse pressure of 30 bar, ensuring reliability under high-pressure conditions. The design incorporates an FKM seal code (V), which provides excellent chemical resistance and durability across various operating environments. The nominal size of this filter element is specified as 160LA, indicating its capacity to handle substantial flow rates without compromising performance. It belongs to the series 10 class and features a standard support cage material that contributes to its structural integrity. This product is particularly suitable for applications where maintaining optimal cleanliness levels in hydraulic fluids is critical for system performance and longevity. Its advanced filter media configuration (PWR20) optimizes dirt holding capacity while minimizing the frequency of maintenance interventions required to replace or clean the filter element. Overall, the Hengst 10.160LA PWR20-A00-6-V SO3000 hydraulic filter element is engineered to provide reliable filtration solutions for various hydraulic systems, ensuring efficient operation and protection against potential damage caused by particulate contamination.
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.