The austenitic 316 grade has been changed to the 316H grade, which has a high carbon content. Nickel, chromium, and molybdenum, together with other alloys that make up the 316H stainless steel pipe, are built in a superior composition. In the face of decreasing and corrosive media, the pipes are now more resistant. In pressure vessel and structural applications that need temperatures above 500 degrees Celsius, stainless steel 316H pipe performs well. Improved heat-resistant properties are present in the non-magnetic grade. On top of that, in stress-induced setups, it has good short and long creep strength. With a melting range of 1375 to 1400 degrees C and a density of 8 g/cm3, 316H Stainless Steel Tubes are very dense. Both their mechanical and thermal conductivity are of the highest caliber in these tubes.
316H Stainless Steel Mechanical Properties
Because of its excellent mechanical characteristics, 316H stainless steel is a frequently utilized metal, particularly in applications with Inconel sheet. Because to its exceptional strength and corrosion resistance, this metal is a great option for many types of metalworking. It is suitable for welding and other fabrication applications because it can resist temperatures of up to 1010 degrees Celsius. Furthermore, 316H stainless steel exhibits resilience even under harsh circumstances like high-pressure and high-temperature situations. With the right circumstances, its formability and hardness make it perfect material for machining and grinding. Because of all these qualities, 316H stainless steel is a preferred material in industrial applications.
316H Pipe Suitable for Nuclear and Power Generation
The energy used in power plants may come from nuclear or thermal sources. Both methods convert the generated energy in varying degrees using steam and water. Several types of liquids were also employed in the heating and cooling systems. Certain mechanical qualities are required to circulate this water, steam, and liquids.
316H Stainless Steel Tubes must be more robust, resistant to corrosion, oxidation, heat, and able to function continuously in high temperatures. All of aforementioned characteristics apply to the 316H. It is 8 grammes per cm cube in weight, melts between 1375 and 400 degrees Celsius, has a minimum yield strength of 205 MPa, a minimum tensile strength of 515 MPa, and a 95 Rockwell B hardness. 316H pipe is hence appropriate for nuclear and electricity generation.
What is the Melting Point?
316H melts at temperatures between 1375 and 1400 degrees Celsius. It is a high temperature alloy made of chromium, nickel, and molybdenum. It offers better tensile and yield strengths than 316 material because it has a larger carbon content. The material is utilised in a number of high temperature applications, including as power generation facilities, pulp and paper industries, petroleum refineries, and pharmaceutical operations, due to its high melting range and strong strength.
