alloy52 corresponding grades:4J350, NI50 (China), UNS N14052, FENi50, Alloy52 (USA), VACOVI50, VACODIL500 (Germany), NILO52 (UK), NS-1 (Japan), N50 (France H (Russia).
alloy52Technical standard: YB T 5235-2005, ASTM F30
alloy52Supply form: bar, wire, strip, plate, pipe, forging, etc.
Alloy52 is an iron-nickel alloy material, also known as Nilo 52 or Pernifer 50. It is mainly composed of 52% nickel and 48% iron, hence the name.
Alloy52 has many excellent properties that make it widely used in a variety of applications. First of all, it has a very low coefficient of thermal expansion, which means that when the temperature changes, it changes very little in size. This makes Alloy 52 very useful in instruments and equipment that require high precision, such as optical instruments or precision measuring equipment.
In addition, alloy52 has good resistance characteristics, making it suitable for electronic components and circuit applications. Its resistance value is relatively stable and is not susceptible to temperature changes.
Alloy52 also has good corrosion resistance, especially strong resistance to oxidation and sulfides. This makes it useful in corrosive environments such as the chemical industry and marine environments.
In addition, alloy52 has high strength and hardness, making it very useful in applications that need to withstand greater forces or pressures.
Finally, alloy52 has a lower magnetic properties, which makes it very useful in applications that require low magnetism, such as electronic devices or precision instruments.
In conclusion, Alloy52 is a versatile iron-nickel alloy with low coefficient of thermal expansion, good resistance characteristics, corrosion resistance and low magnetism, suitable for a variety of high-precision and special environment applications.
Alloy52 has some special properties that make it very useful in specific applications. Here are some of the features of Alloy 52 wire:
1. Coefficient of thermal expansion: alloy52 alloy has a relatively low coefficient of thermal expansion, which means that it can maintain a relatively stable size when the temperature changes. This makes it useful in applications where resistance to thermal expansion is required.
2. Resistance: Alloy52 alloy has a high resistivity, which makes it widely used in resistors and electronic devices.
3. Corrosion resistance: alloy52 alloy has good corrosion resistance to many chemical media. It is resistant to some acids, alkalis, and salts, making it potentially useful in the chemical industry.
4. Mechanical properties: alloy52 alloy has good mechanical properties, including moderate strength and hardness. This makes it very useful in some applications that require high strength and hardness.
5. Magnetism: Alloy52 alloy has a low permeability, which makes it very useful in some magnetically sensitive applications, such as precision instruments and magnetic sensors.
In general, alloy52 alloy wire has a low coefficient of thermal expansion, good corrosion resistance, moderate mechanical properties and low magnetic properties, which is suitable for key component manufacturing and electronic device applications in various high-temperature environments.
The composition of Alloy52 is mainly composed of nickel (Ni) and iron (Fe), with a ratio of 52% nickel and 48% iron. This ratio gives alloy52 its own unique characteristics and properties. In addition to nickel and iron, the alloy may also contain a small number of other elements such as carbon (C), sulfur (S), phosphorus (P), silicon (Si), etc., to adjust the properties and properties of the alloy. However, the levels of these additional elements are usually low and do not have a significant impact on the main composition of the alloy.
The technical standards of alloy52 mainly include the following aspects:
1. Chemical composition standard: The chemical composition of alloy52 should comply with relevant international or industry standards, such as ASTM (American Society for Testing and Materials) standards or ISO (International Organization for Standardization) standards. These standards specify the permissible range and content requirements for each element in the alloy.
2. Heat treatment standard: Alloy52 usually needs to be heat treated during the production process to adjust its crystal structure and properties. The heat treatment standard specifies the heating temperature, holding time, cooling rate and other parameters of the alloy to ensure that the alloy obtains the required mechanical properties and microstructure.
3. Mechanical property standards: The mechanical properties standards of alloy52 include strength, hardness, extensibility and other indicators. These specifications can be formulated according to the specific application needs and use environment to ensure that the alloy has sufficient strength and reliability when in use.
4. Size and shape standards: The size and shape of alloy52 should meet the relevant standards so that the requirements can be met in the manufacturing and application process. These standards can include requirements for the size range of bars, plates, wires, etc., allowable surface defects of the alloy, etc.
5. Corrosion resistance standard: Alloy52 usually has good corrosion resistance, but it may need to meet higher corrosion resistance requirements in some special applications. The relevant standards can specify the performance test methods and requirements of the alloy under specific corrosive media.
It is important to note that specific technical standards may vary depending on the country, industry, and application. Therefore, when selecting and using alloy52, it is necessary to refer to the corresponding standards to ensure that the quality and performance of the alloy meet the requirements.