Will the properties of the fluid affect the stability of valve part forgings?

The properties of fluids do have an impact on the stability of valve part forgings. The temperature, pressure, chemical composition, and flow characteristics of fluids may have varying degrees of impact on the surface and internal structure of valve materials. For example, if the corrosiveness of the fluid is strong, it may accelerate the oxidation and corrosion of the surface of valve parts, thereby affecting their sealing and mechanical performance. High temperature fluids can cause thermal expansion, thermal stress, and other effects on valve parts, which may lead to material deformation or strength reduction, especially when used under high temperature and high pressure conditions.
In addition, the particle content, flow rate, and presence of solid impurities in the fluid may also cause wear or erosion on the surface of valve parts, forming pits or other damages, thereby affecting their long-term stability. If the fluid contains chemicals such as acids, bases, or salts, valve parts may undergo chemical reactions when in contact with these substances, leading to corrosion or material degradation, especially in extreme chemical environments.
Therefore, the properties of fluids are closely related to the stability of valve parts forgings. Reasonable selection of materials and appropriate surface treatment, coating, and corrosion-resistant design can effectively mitigate the impact of these adverse factors on valves.