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GH4080A | ||||||||||||||
Chemical Component | % | Ni | Cr | Fe | C | Mo | Mn | Si | Al | B | Ti | S | P | Cu |
Min | Allowance | 18 | 0.04 | 1 | 1.8 | |||||||||
Max | Allowance | 21 | 1.5 | 0.1 | 2 | 0.4 | 0.8 | 1.8 | 0.008 | 2.7 | 0.015 | 0.02 | 0.2 | |
Physical Property | Density | 8.19g/Cm3 | ||||||||||||
Melting Point | 1320-1365℃ | |||||||||||||
1. High-temperature performance: It has excellent high-temperature strength and creep resistance, capable of long-term service in the temperature range of 700 - 900°C, resisting deformation and fracture at high temperatures.
2. Oxidation resistance: In high-temperature environments, a dense oxide film forms on the surface, effectively preventing further oxidation and ensuring the stability of the material.
3. Mechanical properties: It possesses high tensile strength, yield strength, and certain plasticity, capable of withstanding complex stress conditions.
1. Alloy composition: It is mainly composed of nickel, chromium, titanium and other elements. The reasonable proportion of these elements endows the alloy with unique properties.
2. Microstructure stability: During long-term use at high temperatures, the microstructure remains relatively stable and does not undergo significant deterioration.
1. Metal molds: In the metal hot working industry, it can be used as a high-temperature mold material, such as for molds in hot forging and hot extrusion processes. Its high-temperature strength and microstructure stability help the mold maintain shape accuracy and surface quality during repeated heating and cooling, thereby extending the mold's service life.
2. High-temperature transmission components: In industrial mechanical transmission systems operating in high-temperature environments, such as the transmission devices of high-temperature kilns, it can be used to manufacture gears, shafts, and other components. Its excellent high-temperature strength and creep resistance ensure stable power transmission under high-temperature conditions and reduce failures caused by high-temperature deformation or wear of components.
1. High reliability: It performs stably in high-temperature and complex stress environments, effectively ensuring the reliable operation of equipment and reducing the probability of failures.
2. Long service life: Its good creep resistance and oxidation resistance extend its service life in high-temperature environments.
1. Performance recognition: Customers have reported that the material meets design requirements under high-temperature conditions, ensuring the normal operation of equipment, and they are satisfied with its high-temperature performance.
2. Low maintenance cost: Due to its long life and stability, it reduces the frequency of equipment maintenance and replacement, thereby lowering overall costs, and has received high praise from customers.
We understand that each customer has unique needs, so we offer personalized customization services.
1. Dimension customization: The thickness of the sheet can be customized within a wide range, from thin sheets for precision components with strict thickness requirements (such as high-temperature protective thin sheets in some electronic devices) to thick sheets for structural components that need to withstand heavy loads and high temperatures (such as furnace lining plates in industrial furnaces). The width and length can also be cut according to actual engineering requirements to fit different equipment and structural dimensions.
2. Shape customization: In addition to conventional rectangular sheets, it can be cut into various irregular shapes, such as circular, arc-shaped, trapezoidal, etc., to manufacture special-shaped parts, like certain special-shaped heat insulation plates and high-temperature sealing plates in aircraft engines.
3. Surface treatment customization: Different surface treatments can be performed. For example, polishing can be done to achieve a lower surface roughness, meeting the requirements of high surface finish in some optical instruments' high-temperature protective plates; coating can be applied, such as applying an anti-oxidation coating to further enhance oxidation resistance in extreme high-temperature environments, or applying a wear-resistant coating to improve wear resistance in frictional conditions.
From the formulation of the design plan to the control of the production process, and then to the final delivery of the product, every link strives to meet your expectations. Any needs are welcome to contact us at any time. You can call our service hotline through the contact number on the website, or communicate with us via email. You can also leave your contact information here, and our professional staff will contact you as soon as possible to provide you with the best service and the most professional solutions to meet your unique needs. Looking forward to cooperating with you!
