Hastelloy X Nickel Based Metal Powder for Additive Manufacturing (3D Printing)

Part No.	Ni2302
Purity	≥99.5 %
Shape	Spherical powder
Particle Size	0-15,15-53,45-105,75-150 μm
Oxygen content	800-1500ppm

Product details:

Hastelloy X is a nickel-based metal powder renowned for its outstanding performance in extreme environments. It offers exceptional strength, oxidation resistance, and excellent fabricability, making it an ideal choice for additive manufacturing (3D printing). This advanced material is particularly suited for high-temperature applications, such as gas turbine engines and industrial furnace components, due to its ability to maintain its mechanical properties and resist corrosion even under severe thermal and mechanical stress.

Chemical Composition:

Hastelloy X is a nickel-based superalloy with a precise chemical composition designed to enhance its high-temperature performance and corrosion resistance. The typical chemical composition of Hastelloy X is as follows:

Chemical Composition (wt%) of Hastelloy X
Item	Fe	C	Mn	Si	Ni	Cr	Mo	V	W	Al
Hastelloy X	17-20	≤0.15	≤1.0	≤1.0	47-52	20.5~23.0	8.0~10.0	–	0.2-1.0	≤0.5
	Mg	Cu	Ti	Nb	Zr	P	S	Co
	–	–	≤0.15	–	–	≤0.04	≤0.03	1.0-2.5

Particle Sizes:

0~25μm, 0~45μm, 15-45μm, 45~105μm, 75-180μm. (A variety of particle size metal powder can be customized upon request)

Applications

Hastelloy X nickel-based metal powder is widely used in various applications due to its excellent high-temperature strength, oxidation resistance, and superior performance under severe thermal and mechanical stress. Key applications include:

Aerospace Industry: Components for gas turbine engines, combustion chambers, and afterburners where high temperature and oxidation resistance are crucial.
Industrial Gas Turbines: Turbine blades, combustion liners, and transition ducts that require durability under high thermal cycling and oxidative conditions.
Chemical Processing: Equipment like heat exchangers, reactors, and pressure vessels that must withstand corrosive environments and high temperatures.
Nuclear Reactors: Components exposed to high radiation and thermal conditions, leveraging the alloy’s stability and resistance to oxidation and corrosion.
Furnace Components: Parts such as retorts, muffles, and fixtures used in high-temperature furnaces due to their ability to maintain strength and resist scaling.
Additive Manufacturing (3D Printing): Production of complex, high-performance parts that require precise mechanical properties and excellent resistance to oxidation and high temperatures.

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