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Corrosion-Resistant Hastelloy C-22 Alloy

Corrosion-Resistant Hastelloy C-22 Alloy

SKU:HAS-43f323

Highly corrosion-resistant alloy with superior performance in challenging environments. Ideal for welding and general corrosion protection.

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Corrosion-Resistant Hastelloy C-22 Alloy

Corrosion-Resistant Hastelloy C-22 Alloy

$99.99

Quantity: 1

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Corrosion-Resistant Hastelloy C-22 Alloy

Corrosion-Resistant Hastelloy C-22 Alloy

$99.99

Quantity: 1

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The Hastelloy C-22 Alloy (UNS N06022) is a high-performance nickel-chromium-molybdenum alloy known for its superior corrosion resistance. With a composition of Ni 58, Cr 22, Mo 13.0, Fe 3.0, W 3.0, it offers enhanced durability in challenging environments. Ideal for welding applications and general corrosion protection, it excels in withstanding organic acids, chloride-induced stress corrosion cracking, and various reducing chemicals. Its resistance to pitting, crevice corrosion, and stress corrosion cracking makes it a reliable choice for critical industrial operations.

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Product Specifications

Additional Information Additional Information
C-22 has outstanding resistance to both reducing and oxidizing media and because of its resistibility can be used where "upset" conditions are likely to occur. It is proven to possess excellent weldability and high corrosion resistance as consumable filler wires and electrodes. The alloy has proven results as a filler wire in many applications. As filler wire use when other corrosion resistant wires have failed.C-22 can easily be cold-worked because of its ductility and cold-forming is the preferred method of forming. More energy is required because the alloy is generally stiffer than austenitic stainless steels. 0.28" thick sheet in the heat-treated at 2050 ºF, rapid quenched condition, has an average olsen cup depth of 0.49".
Machinability Ratings Capacity
Machine should be rigid and overpowered as much as possible.
Machinability Ratings Lubrication
Lubricants are desirable, soluble oils are recommended especially when using carbide tooling.
Machinability Ratings Rigidity
Work piece and tool should be held rigid. Minimize tool overhang.
Machining 0
Nickel & cobalt base corrosion, temperature and wear-resistant alloys are classified as moderate to difficult when machining, however, it should be emphasized that these alloys can be machined using conventional production methods at satisfactory rates. During machining these alloys work harden rapidly, generate high heat during cutting, weld to the cutting tool surface and offer high resistance to metal removal because of their high shear strengths.
Positive Cuts 0
Use heavy, constant, feeds to maintain positive cutting action. If feed slows and the tool dwells in the cut, work hardening occurs, tool life deteriorates and close tolerances are impossible.
Tools 0
Use positive rake angle tools for most machining operations. Negative rake angle tools can be considered for intermittent cuts and heavy stock removal. Carbide-tipped tools are suggested for most applications. High speed tools can be used, with lower production rates, and are often recommended for intermittent cuts.
Tool Sharpness 0
Make sure tools are sharp at all times. Change to sharpened tools at regular intervals rather than out of necessity. A 0.015 inch wear land is considered a dull tool.