Inconel Alloy Parts Manufacturing Service
Neway offers high-precision vacuum investment casting for Inconel alloys, ensuring superior strength, corrosion resistance, and heat tolerance. We specialize in single crystal and equiaxed crystal casting, producing components like turbine blades, impellers, and combustion chambers. Post-processing includes CNC machining, HIP, and thermal barrier coatings for optimal performance.
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Our High Temperature Alloy Parts Manufacturing Service
Neway specializes in vacuum casting and forging of high-temperature alloys, including single crystal casting and equiaxed crystal casting of high-temperature alloys. At the same time, it provides CNC machining, 3D printing rapid proofing services for high-temperature alloys, as well as post-processing processes such as deep hole drilling, EDM, thermal barrier coating, hot isostatic pressing, etc., to provide you with one-stop service.
Delivers complex, high-precision components with excellent surface finish, minimal contamination, and optimal mechanical properties for aerospace and industrial applications.
Eliminates porosity, enhances material density, and improves mechanical properties, ensuring durability and strength in critical applications.
Enables precise joining of high-temperature materials, ensuring structural integrity and performance in extreme environments.
Produces components with superior grain structure, high strength, and fatigue resistance by maintaining uniform temperatures during forging.
Single Crystal Casting eliminates grain boundaries, offers superior creep resistance and durability at high temperatures, and is mainly used to produce critical turbine components like blades.
Superalloy directional casting offers improved creep resistance and strength compared to single crystal casting, as it aligns grains in a single direction, reducing stress concentrations. It's ideal for parts like turbine blades that operate under high mechanical loads.
Equiaxed Crystal Casting, with randomly oriented grains, is more cost-effective but has lower high-temperature performance, making it suitable for less critical parts like turbine wheels or casings.
Powder metallurgy (PM) turbine discs offer improved material uniformity, fine grain structure, and enhanced mechanical properties, such as high strength and fatigue resistance. PM allows for near-net shape manufacturing, reducing material waste and machining time.
In addition to vacuum casting of high temperature alloys, Neway also provides precision vacuum investment casting services for stainless steel, carbon steel and titanium aluminum intermetallic compounds.
Superalloy precision forging for turbine blades offers enhanced strength, high-temperature resistance, and fatigue life. This process also enhances creep resistance and oxidation protection, making it ideal for demanding environments like aerospace and gas turbines.
We provide 3, and 5-axis CNC machining services, mainly for high-temperature alloy vacuum castings and 3D-printed parts blanks for precision post-processing or manufacturing samples.
Focus on 3D printing of high temperature alloys such as Inconel718LC, Inconel625, HastelloyX, Haynes188, etc. Titanium alloys such as TC4, TC15, stainless steel 316L, and aluminum alloy AlSi10Mg.
Delivers complex, high-precision components with excellent surface finish, minimal contamination, and optimal mechanical properties for aerospace and industrial applications.
Eliminates porosity, enhances material density, and improves mechanical properties, ensuring durability and strength in critical applications.
Enables precise joining of high-temperature materials, ensuring structural integrity and performance in extreme environments.
Produces components with superior grain structure, high strength, and fatigue resistance by maintaining uniform temperatures during forging.
Single Crystal Casting eliminates grain boundaries, offers superior creep resistance and durability at high temperatures, and is mainly used to produce critical turbine components like blades.
Superalloy directional casting offers improved creep resistance and strength compared to single crystal casting, as it aligns grains in a single direction, reducing stress concentrations. It's ideal for parts like turbine blades that operate under high mechanical loads.
Equiaxed Crystal Casting, with randomly oriented grains, is more cost-effective but has lower high-temperature performance, making it suitable for less critical parts like turbine wheels or casings.
Powder metallurgy (PM) turbine discs offer improved material uniformity, fine grain structure, and enhanced mechanical properties, such as high strength and fatigue resistance. PM allows for near-net shape manufacturing, reducing material waste and machining time.
Produces components with superior grain structure, high strength, and fatigue resistance by maintaining uniform temperatures during forging.
Single Crystal Casting eliminates grain boundaries, offers superior creep resistance and durability at high temperatures, and is mainly used to produce critical turbine components like blades.
Superalloy directional casting offers improved creep resistance and strength compared to single crystal casting, as it aligns grains in a single direction, reducing stress concentrations. It's ideal for parts like turbine blades that operate under high mechanical loads.
Equiaxed Crystal Casting, with randomly oriented grains, is more cost-effective but has lower high-temperature performance, making it suitable for less critical parts like turbine wheels or casings.
Powder metallurgy (PM) turbine discs offer improved material uniformity, fine grain structure, and enhanced mechanical properties, such as high strength and fatigue resistance. PM allows for near-net shape manufacturing, reducing material waste and machining time.
In addition to vacuum casting of high temperature alloys, Neway also provides precision vacuum investment casting services for stainless steel, carbon steel and titanium aluminum intermetallic compounds.
Superalloy precision forging for turbine blades offers enhanced strength, high-temperature resistance, and fatigue life. This process also enhances creep resistance and oxidation protection, making it ideal for demanding environments like aerospace and gas turbines.
We provide 3, and 5-axis CNC machining services, mainly for high-temperature alloy vacuum castings and 3D-printed parts blanks for precision post-processing or manufacturing samples.
Focus on 3D printing of high temperature alloys such as Inconel718LC, Inconel625, HastelloyX, Haynes188, etc. Titanium alloys such as TC4, TC15, stainless steel 316L, and aluminum alloy AlSi10Mg.
Delivers complex, high-precision components with excellent surface finish, minimal contamination, and optimal mechanical properties for aerospace and industrial applications.
Eliminates porosity, enhances material density, and improves mechanical properties, ensuring durability and strength in critical applications.
Enables precise joining of high-temperature materials, ensuring structural integrity and performance in extreme environments.
Produces components with superior grain structure, high strength, and fatigue resistance by maintaining uniform temperatures during forging.
Single Crystal Casting eliminates grain boundaries, offers superior creep resistance and durability at high temperatures, and is mainly used to produce critical turbine components like blades.
Inconel alloy Materials
Custom Inconel Casting Components Post-Process Service
Post-processing for custom Inconel casting components ensures enhanced durability and precision. HIP removes porosity, boosting strength and fatigue resistance. Heat treatment optimizes hardness and thermal stability. CNC machining and EDM enable complex geometries and tight tolerances. TBC offers thermal protection, extending service life in high-temperature environments. Material testing ensures reliability, making these components ideal for aerospace, energy, and industrial applications.
Inconel Alloys Available
Inconel, a nickel-chromium-based superalloy, is known for its excellent corrosion resistance, high-temperature strength, and oxidation resistance. Inconel retains its mechanical properties under extreme conditions in vacuum castings, making it ideal for aerospace, automotive, and chemical industries. Its ability to withstand temperatures up to 980°C and resist creep and thermal fatigue is critical in applications like turbine blades, gas turbine parts, and engine combustion chambers. Vacuum casting enhances the alloy's performance by minimizing impurities and porosity, ensuring precise and high-integrity components. Additionally, Inconel's resistance to oxidation and scaling makes it suitable for harsh environments, including high-pressure and corrosive applications such as petrochemical and marine engineering.
Inconel Alloy Case Study
At Neway, our Inconel alloy case studies highlight its application in high-stress environments, including turbine blades and gas turbine components. Our precision casting and CNC machining expertise ensures optimal performance in the aerospace, chemical, and energy sectors. We emphasize durability, corrosion resistance, and high-temperature strength in each project.
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Inconel Vacuum Investment Casting Parts Gallery
Inconel vacuum investment castings are widely used in high-temperature, high-stress applications. Key uses include turbine blades, combustion chambers, and nozzles in aerospace and gas turbines, as well as components in chemical processing, power generation, and petrochemical industries due to Inconel's corrosion resistance and ability to withstand extreme environments.
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Neway Precision Works Ltd.
No. 3, Lefushan Industrial West Road
Fenggang, Dongguan, Guangdong
China (ZIP 523000)
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