The Cast Iron Stop Valve PN10 is a reliable and durable valve designed for a wide range of industrial applications.
The Cast Iron Stop Valve PN10 is available in a size range from 1/2″ to 2″, offering versatility and compatibility with different pipe sizes commonly found in industrial systems. The valve’s compact and well-defined shape allows for easy installation and maintenance.
The Cast Iron Stop Valve PN10 is equipped with ISO 228 threads, which are equivalent to DIN EN ISO 228 and BS EN ISO 228 standards. These standardized threads ensure a secure and leak-free connection between the valve and compatible pipes or fittings.
The Cast Iron Stop Valve PN10 is designed to operate within a temperature range suitable for many industrial applications. With a PN10 working pressure rating, this valve is capable of effectively controlling fluid flow within the specified pressure range.
The Cast Iron Stop Valve PN10 is a robust and reliable valve designed to meet the demands of industrial fluid control applications. With its cast iron body, this valve offers exceptional strength and durability, making it suitable for various industrial environments. The valve is available in a size range from 1/2″ to 2″, providing versatility and compatibility with different pipe sizes commonly used in industrial systems. Its well-defined shape and compact design allow for easy installation and maintenance, promoting efficient operation and flow control within industrial setups.
Equipped with ISO 228 threads, equivalent to DIN EN ISO 228 and BS EN ISO 228 standards, the Cast Iron Stop Valve PN10 ensures secure and leak-free connections. These standardized threads guarantee a tight fit, minimizing the risk of leakage and maintaining system integrity. The valve’s precise threading facilitates easy integration into existing systems or new installations, offering convenience and compatibility.
The Cast Iron Stop Valve PN10 is designed to operate within a temperature range suitable for various industrial applications. While specific temperature limits may vary depending on the fluids and environmental conditions, the valve is engineered to handle a wide range of temperatures. It is important to consult the manufacturer’s guidelines and consider the specific requirements of the system to determine the appropriate temperature range for optimal performance.