HENGST
1018379B
$279.00 USD
Tags:
- HENGST
- Material:1018379B
- Model:R928056930
- 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 10.330LA PWR6-A00-0-V (1018379B) is a high-performance hydraulic filter element designed to ensure optimal filtration in various hydraulic systems. Central to its function, the filter element is crafted with a multilayer glass fiber material, designated as PWR, which plays a crucial role in determining key parameters such as retention capacity, dirt holding capacity, and pressure loss. This specific model features a nominal size of 330LA and incorporates an FKM seal designation for enhanced durability and compatibility with various hydraulic fluids. The filter element has dimensions of 194.5 mm in length, 94.5 mm in outer diameter, and 48.3 mm in inner diameter, making it suitable for systems requiring these specific measurements. Engineered to withstand demanding environments, the Hengst 10.330LA PWR6-A00-0-V boasts a collapse pressure rating of 30 bar, ensuring reliability under high-pressure conditions. The design classifies it as a standard support cage material filter element that does not require a separate support cage, simplifying installation and maintenance processes. Although it is not suitable for HFC or HFA fluid types and does not conform to DIN24550 standards, this filter element excels in applications where traditional hydraulic fluids are used. Ideal for maintaining the cleanliness of hydraulic circuits by trapping contaminants effectively, this Hengst filter element is an essential component for prolonging the life of hydraulic equipment and maintaining peak operational efficiency. Whether employed in industrial machinery or mobile equipment systems that operate within its specifications, this filter provides robust performance tailored to meet stringent filtration requirements.
The Hengst 10.330LA PWR6-A00-0-V (1018379B) is a high-performance hydraulic filter element designed to ensure optimal filtration in various hydraulic systems. Central to its function, the filter element is crafted with a multilayer glass fiber material, designated as PWR, which plays a crucial role in determining key parameters such as retention capacity, dirt holding capacity, and pressure loss. This specific model features a nominal size of 330LA and incorporates an FKM seal designation for enhanced durability and compatibility with various hydraulic fluids. The filter element has dimensions of 194.5 mm in length, 94.5 mm in outer diameter, and 48.3 mm in inner diameter, making it suitable for systems requiring these specific measurements. Engineered to withstand demanding environments, the Hengst 10.330LA PWR6-A00-0-V boasts a collapse pressure rating of 30 bar, ensuring reliability under high-pressure conditions. The design classifies it as a standard support cage material filter element that does not require a separate support cage, simplifying installation and maintenance processes. Although it is not suitable for HFC or HFA fluid types and does not conform to DIN24550 standards, this filter element excels in applications where traditional hydraulic fluids are used. Ideal for maintaining the cleanliness of hydraulic circuits by trapping contaminants effectively, this Hengst filter element is an essential component for prolonging the life of hydraulic equipment and maintaining peak operational efficiency. Whether employed in industrial machinery or mobile equipment systems that operate within its specifications, this filter provides robust performance tailored to meet stringent filtration requirements.
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.