J-VALVES trunnion ball valves, relying on their design concepts that strictly follow international standards such as ASME, as well as their excellent material selection and technical advantages, have successfully met the stringent requirements of high-end users for valve performance and reliability. Whether in the petroleum, natural gas, or chemical industries, J-VALVES trunnion ball valves can provide reliable solutions to help customers achieve efficient and safe production goals.
Read More
In industrial fields such as petroleum, natural gas, and chemical engineering, the pressure-bearing performance of valves is one of the key factors to ensure the safe operation of systems. API 6D and ASME B16.34 are two important standards widely applied in the design and manufacturing of valves. This article will conduct a comparative analysis on the pressure-bearing performance differences between trunnion ball valves and gate valves under these two standards, helping engineers and purchasers better select valves suitable for their application scenarios.
Read More
In the global industrial field, DN300 PN40 trunnion mounted ball valves are widely used. API 608 and EN 12516, as important international standards, have different specification requirements for their design, manufacturing, performance and other aspects. Understanding the compatibility between these two standards is of great significance for relevant enterprises in international trade, product selection and project implementation. Now, let's conduct an in-depth analysis of the comparison of these two standards in various key elements.
Read More
In the fluid control process in the industrial field, J-VALVES DN300 PN40 trunnion ball valves are widely used due to their unique structural and performance advantages. However, different design standards result in differences in many aspects of trunnion ball valves of this specification. A clear understanding of these differences is crucial for us to make accurate procurement decisions. The following is an in-depth comparison of its common design standards to clear up the confusion for you.
Read More
J-VALVES trunnion ball valves, relying on their design concepts that strictly follow international standards such as ASME, as well as their excellent material selection and technical advantages, have successfully met the stringent requirements of high-end users for valve performance and reliability. Whether in the petroleum, natural gas, or chemical industries, J-VALVES trunnion ball valves can provide reliable solutions to help customers achieve efficient and safe production goals.
In industrial fields such as petroleum, natural gas, and chemical engineering, the pressure-bearing performance of valves is one of the key factors to ensure the safe operation of systems. API 6D and ASME B16.34 are two important standards widely applied in the design and manufacturing of valves. This article will conduct a comparative analysis on the pressure-bearing performance differences between trunnion ball valves and gate valves under these two standards, helping engineers and purchasers better select valves suitable for their application scenarios.
In the global industrial field, DN300 PN40 trunnion mounted ball valves are widely used. API 608 and EN 12516, as important international standards, have different specification requirements for their design, manufacturing, performance and other aspects. Understanding the compatibility between these two standards is of great significance for relevant enterprises in international trade, product selection and project implementation. Now, let's conduct an in-depth analysis of the comparison of these two standards in various key elements.
In the fluid control process in the industrial field, J-VALVES DN300 PN40 trunnion ball valves are widely used due to their unique structural and performance advantages. However, different design standards result in differences in many aspects of trunnion ball valves of this specification. A clear understanding of these differences is crucial for us to make accurate procurement decisions. The following is an in-depth comparison of its common design standards to clear up the confusion for you.
