Since liquids are in the media, sanitary butterfly valves generally control their flow rate, it is important to use these valves that will not result in corrosion. This will improve the durability of these valves as well as prevent contamination of the fluids circulating in the valve. Chrome is one of the components of stainless steel that makes it resistant to corrosion. In the same way, the addition of nickel improves the properties of resistance to steel corrosion, especially during aggressive use, as is the case in the dairy and food industries. In addition, the addition of molybdenum improves the resistance to localized corrosion, especially against scars.
Carbon is a very strong and hard element. As part of stainless steel, it gives these devices the hardness needed to survive in different work environments. This makes these valves last longer despite their frequent use in various industries. In addition, coal has a high melting point and this gives sanitary valves the ability to withstand high temperatures during use.
Another reason why manufacturers use stainless steel to create sanitary valves is that stainless steel is not a good conductor of electricity and heat. This makes it safe for the medium to pass through the sanitary butterfly valves so as not to be affected by intense heat or electricity. As a result, the valves can retain their strength and functionality despite the temperature at which they are exposed. The components of the stainless steel that contribute to these properties are mainly non-metals such as sulfur, silicon, phosphorus and manganese.
All these stainless steel elements are suitable for sanitary ball valves because they make the valves easy to clean. In a manufacturing plant, many processes occur most of the time and it should be easy to clean the equipment used as valves. This saves the company time and money for frequent cleaning. Stainless steel does not affect the aroma of the medium flowing through the sanitary valves. This is important in the dairy and food industries.
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