HENGST
1018597B
$3,663.00 USD
Tags:
- HENGST
- Material:1018597B
- Model:R928057166
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 210LDN0160-2X/PWR10B00-V5,0-M-S6 (1018597B) is a high-performance inline duplex filter designed for demanding applications requiring efficient filtration and reliability. This model features a robust construction with housing made from nodular cast iron and carbon steel, ensuring durability and strength under high-pressure conditions. The filter utilizes a multilayer glass fiber material with a filtration grade of 10, providing effective contaminant removal and maintaining fluid cleanliness. With a nominal pressure rating of 210 bar and capable of withstanding a maximum working pressure of up to 210 bar, this filter is suitable for use in systems subjected to substantial operational pressures. The design includes an optical indicator for easy monitoring of the filter's status, allowing users to determine when maintenance or replacement is necessary. The stopcock change-over design facilitates smooth switching between filter elements without interrupting the flow, enhancing operational efficiency. The Hengst filter also incorporates a cyclone effect to improve separation efficiency and reduce maintenance frequency. Its NBR seals ensure compatibility with various hydraulic fluids while maintaining leak-proof performance. Mounting options include top or back installation, providing flexibility in system integration. The port configuration features horizontal positioning with a 1/2\" - 6000 psi SAE standard port designation, supporting secure connections in hydraulic circuits. Additionally, this model complies with DIN24550 standards and is suitable for use with HFC/HFA fluids, broadening its application range across different fluid types. Overall, the Hengst 210LDN0160-2X/PWR10B00-V5,0-M-S6 offers reliable filtration solutions tailored for high-pressure environments requiring consistent performance and minimal downtime.
The Hengst 210LDN0160-2X/PWR10B00-V5,0-M-S6 (1018597B) is a high-performance inline duplex filter designed for demanding applications requiring efficient filtration and reliability. This model features a robust construction with housing made from nodular cast iron and carbon steel, ensuring durability and strength under high-pressure conditions. The filter utilizes a multilayer glass fiber material with a filtration grade of 10, providing effective contaminant removal and maintaining fluid cleanliness. With a nominal pressure rating of 210 bar and capable of withstanding a maximum working pressure of up to 210 bar, this filter is suitable for use in systems subjected to substantial operational pressures. The design includes an optical indicator for easy monitoring of the filter's status, allowing users to determine when maintenance or replacement is necessary. The stopcock change-over design facilitates smooth switching between filter elements without interrupting the flow, enhancing operational efficiency. The Hengst filter also incorporates a cyclone effect to improve separation efficiency and reduce maintenance frequency. Its NBR seals ensure compatibility with various hydraulic fluids while maintaining leak-proof performance. Mounting options include top or back installation, providing flexibility in system integration. The port configuration features horizontal positioning with a 1/2\" - 6000 psi SAE standard port designation, supporting secure connections in hydraulic circuits. Additionally, this model complies with DIN24550 standards and is suitable for use with HFC/HFA fluids, broadening its application range across different fluid types. Overall, the Hengst 210LDN0160-2X/PWR10B00-V5,0-M-S6 offers reliable filtration solutions tailored for high-pressure environments requiring consistent performance and minimal downtime.