I. Structural Strength Analysis of High-temperature and High-pressure Valves(I) Material PropertiesMetal MaterialsCarbon Steel: Its strength decreases as the temperature rises, and it has poor corrosion resistance. However, it is inexpensive and suitable for applications with low requirements.Alloy
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Material selection(I) High temperature resistance performanceMaterial heat resistance: Valve materials need to maintain stable mechanical properties and chemical stability at high temperatures. Commonly used high-temperature materials include alloy steels (such as 13Cr, 9Cr, 12Cr alloy steels), nick
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Under high temperature and high pressure conditions, the sealing performance of valves is a key factor to ensure the safe operation of the system. As two common types of industrial valves, gate valves and ball valves each have unique structures and sealing characteristics.I.Requirements for valve se
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I. Structural Strength Analysis of High-temperature and High-pressure Valves(I) Material PropertiesMetal MaterialsCarbon Steel: Its strength decreases as the temperature rises, and it has poor corrosion resistance. However, it is inexpensive and suitable for applications with low requirements.Alloy
Material selection(I) High temperature resistance performanceMaterial heat resistance: Valve materials need to maintain stable mechanical properties and chemical stability at high temperatures. Commonly used high-temperature materials include alloy steels (such as 13Cr, 9Cr, 12Cr alloy steels), nick
Under high temperature and high pressure conditions, the sealing performance of valves is a key factor to ensure the safe operation of the system. As two common types of industrial valves, gate valves and ball valves each have unique structures and sealing characteristics.I.Requirements for valve se
