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About Stellite 12 Product

Stellite 12 is a cobalt-based alloy known for its excellent wear resistance, high temperature performance and corrosion resistance. It is part of the Stellite family of alloys developed by Deloro Stellite Group, which is now a division of Kennametal. Stellite alloys are widely used in applications where components are subject to severe wear, such as cutting tools, valves, and components in the aerospace and oil and gas industries. Specifically, Stellite 12 is typically used in high-temperature, high-stress environments where other materials may fail. Its composition typically includes cobalt, chromium, tungsten and carbon, with the exact composition varying depending on specific application requirements.

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Nominal Composition (Mass %) and Physical Properties

Co	Cr	W	C	Others	Hardness	Density	Melting Range
Base	27-32	7.5-9.5	1.4-2.0	Ni, Fe, Si, Mn	45-51 HRC435-590 HV	8.53 g/cm30.308 lb/in3	1225-1280ºC2240-2335ºF

product

turbine wheel
turbine blade
nozzle ring
compressor blade
guide vanes
diffuser
Segment
Turbine Rotor
Turbine Stator
Stellite sheet
Stellite pipe
Stellite rod
Stellite bolt and nut
Stellite Fasteners
Stellite wire
spring

According to drawings or samples

Stellite alloys are a group of cobalt-chromium alloys known for their exceptional wear resistance, high temperature performance and corrosion resistance. Here's an overview of Stellite:

Composition:

Stellite alloys are primarily composed of cobalt (about 50-65%) and chromium (about 25-30%), with varying proportions of tungsten, carbon and other elements depending on the grade. These alloying elements give Stellite alloys a unique combination of properties.

Wear Resistance:

Stellite alloys are known for their excellent wear resistance, making them suitable for applications where components are subject to abrasive wear, erosion and sliding contact. They are typically used in high-wear environments such as cutting tools, saw teeth, valve seats, and pump components.

High Temperature Performance:

Stellite retains its mechanical properties at high temperatures, allowing it to withstand high temperatures without significant loss of strength or hardness. This makes Stellite alloys suitable for high-temperature applications such as gas turbine components, furnace components and exhaust valves.

Corrosion Resistance:

Stellite alloys exhibit good corrosion resistance in a variety of environments, including acidic and alkaline solutions, as well as high-temperature gases and molten salts. This corrosion resistance makes Stellite alloys suitable for use in chemical processing, marine engineering, and oil and gas production.

Versatility:

Stellite alloys are available in a variety of grades and forms, including powders for thermal spray coatings, castings and forgings such as rods and plates. This versatility allows the selection of the most appropriate grade and form of Stellite alloy for a specific application.

Applications:

Stellite alloys are widely used in aerospace, automotive, oil and gas, power generation and manufacturing industries. They are widely used in components requiring wear resistance, high temperature performance and corrosion resistance.