In modern industrial production, fluid control is a key link to ensure the smooth progress of the production process. As an efficient and reliable fluid control device, the ear trunnion ball valve is widely used in multiple fields such as petroleum, chemical engineering, natural gas and water treatm
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In the field of industrial valves, DN300 trunnion ball valves are widely used, and different standards have their own specifications and requirements for wall thickness design. ASME B16.34 and DIN 3357, as two standards that attract much attention internationally, understanding the differences in wall thickness design between them plays a crucial role in correct selection, ensuring the performance and safe use of ball valves. Next, we will conduct an in-depth analysis of the differences in wall thickness design of DN300 trunnion ball valves under these two standards and provide corresponding selection guidelines.
Read More
In modern industrial production, fluid control is a key link to ensure the smooth progress of the production process. As an efficient and reliable fluid control device, the ear trunnion ball valve is widely used in multiple fields such as petroleum, chemical engineering, natural gas and water treatm
In the field of industrial valves, DN300 trunnion ball valves are widely used, and different standards have their own specifications and requirements for wall thickness design. ASME B16.34 and DIN 3357, as two standards that attract much attention internationally, understanding the differences in wall thickness design between them plays a crucial role in correct selection, ensuring the performance and safe use of ball valves. Next, we will conduct an in-depth analysis of the differences in wall thickness design of DN300 trunnion ball valves under these two standards and provide corresponding selection guidelines.
