Crucible Compaction Metals P/M Low Carbon Astroloy, Supersolvus

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Crucible Compaction Metals P/M Low Carbon Astroloy, Supersolvus
Categories:	Metal; Nonferrous Metal; Nickel Alloy; Superalloy
Material Notes:	P/M Low Carbon Astroloy is often the superalloy of choice when applications require greater ductility along with substantial strength levels. When HIP and heat treatment above the solvus temperature, the allow provides excellent high temperature stress rupture life. Applications for this alloy include high pressure turbine discs and containment rings for aircraft auxiliary power units (APU). Thousands of APU high pressure turbine discs made from Crucible Low Carbon Astroloy are in service worldwide on commercial and military airplanes. P/M Low Carbon Astroloy is available as near net shapes and standard mill forms consolidated by HIP or direct extrusion. As-HIP parts can range up to 46 inches (1.2 m) in diameter and weighs up to 16,000 lb (7,200 kg). A balance of high strength and ductility. Supersolvus processing for enhanced creep resistance and stress rupture life. Information provided by Crucible Compaction Metals.
Key Words:	Powder Metallurgy
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Mechanical Properties	Original Value	Comments

Tensile Strength, Ultimate	155 MPa @Temperature 760 °C
	185 MPa @Temperature 371 °C
	195 MPa @Temperature 10.0 °C
Tensile Strength, Yield	125 MPa @Strain 0.2 %, Temperature 760 °C
	130 MPa @Strain 0.2 %, Temperature 371 °C
	135 MPa @Strain 0.2 %, Temperature 10.0 °C
Elongation at Break	22 % @Temperature 760 °C
	22.8 % @Temperature 371 °C
	23.1 % @Temperature 10.0 °C
Reduction of Area	23.8 % @Temperature 10.0 °C
	25.8 % @Temperature 371 °C
	35 % @Temperature 760 °C
Rupture Strength	550 MPa @Temperature 732 °C, Time 720000 sec
	620 MPa @Temperature 732 °C, Time 324000 sec
	655 MPa @Temperature 732 °C, Time 180000 sec

Component Elements Properties	Original Value	Comments
Aluminum, Al	3.85 - 4.15 %
Boron, B	0.015 - 0.025 %
Carbon, C	0.020 - 0.040 %
Chromium, Cr	14 - 16 %
Cobalt, Co	16 - 18 %
Molybdenum, Mo	4.5 - 5.5 %
Nickel, Ni	52.6 - 58.3 %	As Balance
Titanium, Ti	3.35 - 3.65 %

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NCRUC100 / 16064

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