HENGST
1011652B
$400.00 USD
Tags:
- HENGST
- Material:1011652B
- Model:R928045820
- 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 2.140 PWR6-B00-0-M (1011652B) is a high-performance hydraulic filter element designed to deliver efficient filtration in various hydraulic systems. This filter element is central to the filtration process, where it plays a crucial role in determining key parameters such as retention capacity, dirt holding capacity, and pressure loss. Measuring 156 mm in length with an outer diameter of 78 mm and an inner diameter of 40.2 mm, this filter is compact yet highly effective. It features a multilayer glass fiber material designated as PWR for the filter media, which enhances its filtration capabilities by ensuring superior dirt retention and minimal pressure drop. The design class of this product is categorized as a filter element with a nominal size of 140, making it suitable for applications requiring precise filtration performance. The seal code 'M' indicates the use of NBR (nitrile butadiene rubber) for sealing, which provides excellent compatibility with various hydraulic fluids. The support cage material is standard, contributing to the structural integrity and durability of the filter element under challenging conditions. The Hengst 2.140 PWR6-B00-0-M boasts a collapse pressure rating of 330 bar, ensuring reliable performance even under high-pressure scenarios. Despite its robust construction, it does not include suitability for HFC/HFA fluids or compliance with DIN24550 standards and does not feature a support cage-less design. This specific model is part of series 2 and features the legacy code R928045820. With its advanced multilayer glass fiber media and robust construction, this Hengst hydraulic filter element is ideal for maintaining optimal fluid cleanliness in demanding industrial environments.
The Hengst 2.140 PWR6-B00-0-M (1011652B) is a high-performance hydraulic filter element designed to deliver efficient filtration in various hydraulic systems. This filter element is central to the filtration process, where it plays a crucial role in determining key parameters such as retention capacity, dirt holding capacity, and pressure loss. Measuring 156 mm in length with an outer diameter of 78 mm and an inner diameter of 40.2 mm, this filter is compact yet highly effective. It features a multilayer glass fiber material designated as PWR for the filter media, which enhances its filtration capabilities by ensuring superior dirt retention and minimal pressure drop. The design class of this product is categorized as a filter element with a nominal size of 140, making it suitable for applications requiring precise filtration performance. The seal code 'M' indicates the use of NBR (nitrile butadiene rubber) for sealing, which provides excellent compatibility with various hydraulic fluids. The support cage material is standard, contributing to the structural integrity and durability of the filter element under challenging conditions. The Hengst 2.140 PWR6-B00-0-M boasts a collapse pressure rating of 330 bar, ensuring reliable performance even under high-pressure scenarios. Despite its robust construction, it does not include suitability for HFC/HFA fluids or compliance with DIN24550 standards and does not feature a support cage-less design. This specific model is part of series 2 and features the legacy code R928045820. With its advanced multilayer glass fiber media and robust construction, this Hengst hydraulic filter element is ideal for maintaining optimal fluid cleanliness in demanding industrial environments.
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.