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Haynes Waspaloy™ alloy, sheet
Categories: Metal; Nonferrous Metal; Nickel Alloy; Superalloy
Material Notes: Age-hardenable superalloy with very good strength at temperatures up 980°C (1800°F), can be cold-formed in the annealed condition, may also be hot formed at 1040°C (1900°F) and above, good resistance to gas turbine combustion gas environments at temperatures up to 870°C (1600°F). Widely used as a wrought material for forged and fabricated gas turbine and aerospace components.

Tensile properties reported after heat treatment per AMS 5544: 1975°F (1080°C)/30 min./WQ + 1825°F (995°C)/2 hr./AC + 1550°F (845°C)/4 hr./AC + 1400°F (760°C)/16hr./AC

Data provided by the manufacturer, Haynes International, Inc.
Key Words: AMS 5544
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Physical PropertiesMetricEnglishComments
Density 8.20 g/cc0.296 lb/in³
 
Mechanical PropertiesMetricEnglishComments
Tensile Strength, Ultimate 1335 MPa193600 psi
 83.0 MPa
@Temperature 1095 °C		12000 psi
@Temperature 2003 °F
 220 MPa
@Temperature 980 °C		31900 psi
@Temperature 1800 °F
 545 MPa
@Temperature 870 °C		79000 psi
@Temperature 1600 °F
 970 MPa
@Temperature 760 °C		141000 psi
@Temperature 1400 °F
 1195 MPa
@Temperature 650 °C		173300 psi
@Temperature 1200 °F
Tensile Strength, Yield 910 MPa
@Strain 0.2 %		132000 psi
@Strain 0.2 %
 41.0 MPa
@Strain 0.2 %,
Temperature 1095 °C		5950 psi
@Strain 0.2 %,
Temperature 2003 °F
 135 MPa
@Strain 0.2 %,
Temperature 980 °C		19600 psi
@Strain 0.2 %,
Temperature 1800 °F
 415 MPa
@Strain 0.2 %,
Temperature 870 °C		60200 psi
@Strain 0.2 %,
Temperature 1600 °F
 770 MPa
@Strain 0.2 %,
Temperature 650 °C		112000 psi
@Strain 0.2 %,
Temperature 1200 °F
 770 MPa
@Strain 0.2 %,
Temperature 760 °C		112000 psi
@Strain 0.2 %,
Temperature 1400 °F
Elongation at Break 26.6 %26.6 %in 51 mm
 12 %
@Temperature 760 °C		12 %
@Temperature 1400 °F		in 51 mm
 12 %
@Temperature 870 °C		12 %
@Temperature 1600 °F		in 51 mm
 19.4 %
@Temperature 980 °C		19.4 %
@Temperature 1800 °F		in 51 mm
 20.8 %
@Temperature 650 °C		20.8 %
@Temperature 1200 °F		in 51 mm
 36.8 %
@Temperature 1095 °C		36.8 %
@Temperature 2003 °F		in 51 mm
Modulus of Elasticity  146 GPa
@Temperature 1000 °C		21200 ksi
@Temperature 1830 °F
 155 GPa
@Temperature 900 °C		22500 ksi
@Temperature 1650 °F
 164 GPa
@Temperature 800 °C		23800 ksi
@Temperature 1470 °F
 172 GPa
@Temperature 700 °C		24900 ksi
@Temperature 1290 °F
 180 GPa
@Temperature 600 °C		26100 ksi
@Temperature 1110 °F
 192 GPa
@Temperature 400 °C		27800 ksi
@Temperature 752 °F
 204 GPa
@Temperature 200 °C		29600 ksi
@Temperature 392 °F
 213 GPa
@Temperature 20.0 °C		30900 ksi
@Temperature 68.0 °F
 
Thermal PropertiesMetricEnglishComments
CTE, linear  13.9 µm/m-°C
@Temperature 20.0 - 500 °C		7.72 µin/in-°F
@Temperature 68.0 - 932 °F
 14.3 µm/m-°C
@Temperature 20.0 - 600 °C		7.94 µin/in-°F
@Temperature 68.0 - 1110 °F
 14.8 µm/m-°C
@Temperature 20.0 - 700 °C		8.22 µin/in-°F
@Temperature 68.0 - 1290 °F
 15.4 µm/m-°C
@Temperature 20.0 - 800 °C		8.56 µin/in-°F
@Temperature 68.0 - 1470 °F
 16.4 µm/m-°C
@Temperature 20.0 - 900 °C		9.11 µin/in-°F
@Temperature 68.0 - 1650 °F
 17.8 µm/m-°C
@Temperature 20.0 - 1000 °C		9.89 µin/in-°F
@Temperature 68.0 - 1830 °F
Thermal Conductivity  12.6 W/m-K
@Temperature 200 °C		87.4 BTU-in/hr-ft²-°F
@Temperature 392 °F
 15.7 W/m-K
@Temperature 400 °C		109 BTU-in/hr-ft²-°F
@Temperature 752 °F
 19.1 W/m-K
@Temperature 600 °C		133 BTU-in/hr-ft²-°F
@Temperature 1110 °F
 20.9 W/m-K
@Temperature 700 °C		145 BTU-in/hr-ft²-°F
@Temperature 1290 °F
 22.7 W/m-K
@Temperature 800 °C		158 BTU-in/hr-ft²-°F
@Temperature 1470 °F
 24.5 W/m-K
@Temperature 900 °C		170 BTU-in/hr-ft²-°F
@Temperature 1650 °F
Melting Point 1330 - 1360 °C2430 - 2480 °F
Solidus 1330 °C2430 °F
Liquidus 1360 °C2480 °F
Maximum Service Temperature, Air 980 °C1800 °Fstrength retained
 
Component Elements PropertiesMetricEnglishComments
Aluminum, Al 1.5 %1.5 %
Boron, B 0.0060 %0.0060 %
Carbon, C 0.080 %0.080 %
Chromium, Cr 19 %19 %
Cobalt, Co 13.5 %13.5 %
Iron, Fe <= 2.0 %<= 2.0 %
Manganese, Mn <= 0.10 %<= 0.10 %
Molybdenum, Mo 4.3 %4.3 %
Nickel, Ni 56 %56 %As Remainder
Silicon, Si <= 0.15 %<= 0.15 %
Titanium, Ti 3.0 %3.0 %
Zirconium, Zr 0.050 %0.050 %

Some of the values displayed above may have been converted from their original units and/or rounded in order to display the information in a consistent format. Users requiring more precise data for scientific or engineering calculations can click on the property value to see the original value as well as raw conversions to equivalent units. We advise that you only use the original value or one of its raw conversions in your calculations to minimize rounding error. We also ask that you refer to MatWeb's terms of use regarding this information. Click here to view all the property values for this datasheet as they were originally entered into MatWeb.

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