1. Overview of NS1301.
NS1301, as a nickel-based superalloy, has been widely used in many industrial fields due to its excellent corrosion resistance, high temperature oxidation resistance, excellent mechanical properties and properties. NS1301 is mainly composed of nickel, chromium, iron, titanium, aluminum and other elements, and has undergone a precise melting and heat treatment process to make it show excellent performance in extreme environments such as high temperature and high pressure corrosive media.
2. Detailed introduction of NS1301.
1.Chemical composition: The main chemical components of NS1301 include nickel, chromium, iron, titanium, aluminum, etc., which make the alloy have excellent corrosion resistance and high temperature performance.
2.Physical properties: NS1301 has a high melting point of about 1400 and a density of about 82g/cm³。The alloy has good thermal and electrical conductivity, which can meet the needs of heat exchange and electrical equipment in high-temperature environments.
3.Mechanical properties: NS1301 has excellent mechanical properties, such as high strength, good plasticity and toughness. At high temperature, the alloy can still have good mechanical properties, which is suitable for the manufacture of high-temperature structural components.
4.Corrosion resistance: NS1301 shows good corrosion resistance in a variety of corrosive media, such as seawater, acid, alkali, salt, etc. This makes the alloy widely used in chemical, energy, marine engineering and other fields with serious corrosive environments.
3. Introduction to the parameter data of NS1301.
1.Density: 82g/cm³
2.Melting Point: about 1400
3.Tensile strength: 410MPa
4.Yield strength: 40MPa
5.Elongation: 25%.
6.Impact power: 70j
4. Application and problems of NS1301.
1.Applications: NS1301 is widely used in the manufacture of equipment in high temperature, high pressure and sexual medium environments such as chemical industry, energy, marine engineering, aerospace and so on.
2.Usage problems: In practical applications, NS1301 may encounter problems such as poor weldability, deformation and cracks. Therefore, in the manufacturing process, it is necessary to pay attention to the selection of welding processes, as well as the adoption of heat treatment and cooling measures to ensure that the properties of the alloy are not affected.
5. The product form of NS1301.
1.Steel plate: NS1301 steel plate has good processing and corrosion resistance, and can be used to manufacture various chemical equipment, pressure vessels, etc.
2.Round bar: NS1301 round bar can be used to manufacture high-temperature, high-pressure shafts, bolts and other connectors.
3.Forging rod: NS1301 forging rod has high toughness and is suitable for manufacturing all kinds of high-temperature and high-pressure pressure-bearing parts.
4.Forging rings: NS1301 forging rings have high strength and toughness, and can be used to manufacture all kinds of high-temperature and high-pressure annular pressure-bearing parts.
5.Wire: NS1301 wire can be used to manufacture springs, fasteners, etc. for high temperature and high pressure.
6.Seamless pipe: NS1301 seamless pipe has good corrosion resistance and mechanical properties, and can be used to manufacture all kinds of high-temperature and high-pressure pipesWelded pipe: NS1301 welded pipe has good corrosion resistance and processing performance, and can be used to manufacture conveying pipelines for various corrosive media.
Summary: NS1301 has been widely used in many industrial fields due to its excellent corrosion resistance, high temperature oxidation resistance, excellent mechanical properties and processing properties. From chemical composition to physical properties, from mechanical properties to corrosion resistance, NS1301 exhibits excellent properties. However, in practical applications, issues such as weldability, deformation and cracks of alloys also need to be of concern. We hope that through the introduction of this article, you can have a deeper understanding of NS1301 and provide a useful reference for your application.