HENGST
1016693B
$119.00 USD
Tags:
- HENGST
- Material:1016693B
- Model:R928054988
- 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 9.140LA PWR10-A00-0-V SO3000 (1016693B) is a high-performance hydraulic filter element designed to optimize the filtration process in various hydraulic systems. This filter element, identified by its model code 9.140LA PWR10-A00-0-V, features a multilayer glass fiber material known for its superior retention capacity and dirt holding capabilities, ensuring efficient removal of contaminants from hydraulic fluids. With dimensions of 193 mm in length, an outer diameter of 47 mm, and an inner diameter of 22.1 mm, it is engineered to fit seamlessly into compatible systems. The filter media configuration PWR10 offers robust filtration performance, while the FKM seal code ensures reliable sealing under various operating conditions. The design class of this product as a filter element highlights its role as the central component where actual filtration occurs, determining key parameters such as pressure loss and dirt retention capacity. Rated for a collapse pressure of 30 bar, this filter element is built to withstand demanding environments without compromising its structural integrity. It does not include a support cage but utilizes standard support cage material, making it suitable for applications that do not require additional structural support. While it is not suitable for HFC/HFA fluids or compliant with DIN24550 standards, it remains an essential component for maintaining system cleanliness and efficiency in compatible hydraulic setups. Overall, the Hengst 9.140LA PWR10-A00-0-V SO3000 filter element is a critical part designed to enhance the longevity and performance of hydraulic systems by providing effective contamination control through its advanced filtration media and robust construction.
The Hengst 9.140LA PWR10-A00-0-V SO3000 (1016693B) is a high-performance hydraulic filter element designed to optimize the filtration process in various hydraulic systems. This filter element, identified by its model code 9.140LA PWR10-A00-0-V, features a multilayer glass fiber material known for its superior retention capacity and dirt holding capabilities, ensuring efficient removal of contaminants from hydraulic fluids. With dimensions of 193 mm in length, an outer diameter of 47 mm, and an inner diameter of 22.1 mm, it is engineered to fit seamlessly into compatible systems. The filter media configuration PWR10 offers robust filtration performance, while the FKM seal code ensures reliable sealing under various operating conditions. The design class of this product as a filter element highlights its role as the central component where actual filtration occurs, determining key parameters such as pressure loss and dirt retention capacity. Rated for a collapse pressure of 30 bar, this filter element is built to withstand demanding environments without compromising its structural integrity. It does not include a support cage but utilizes standard support cage material, making it suitable for applications that do not require additional structural support. While it is not suitable for HFC/HFA fluids or compliant with DIN24550 standards, it remains an essential component for maintaining system cleanliness and efficiency in compatible hydraulic setups. Overall, the Hengst 9.140LA PWR10-A00-0-V SO3000 filter element is a critical part designed to enhance the longevity and performance of hydraulic systems by providing effective contamination control through its advanced filtration media and robust construction.
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.