Inconel 600

Inconel 600

Nickel (Ni) - 74.335 Balance
Chromium (Cr) - 15.5 Median
(14.0 Min - 17.0 Max)
Iron (Fe) - 8 Median
(6.0 Min - 10.0 Max)
Manganese (Mn) - 1.0 Max
Other

Key

Nickel
Copper
Chromium
Aluminum
Molybdenum
Iron
Titanium
Manganese
Cobalt
Other
  • Nickel (Ni) 74.335 Balance
  • Copper (Cu) 0.5 Max
  • Chromium (Cr) 15.5 Median
    (14.0 Min - 17.0 Max)
  • Iron (Fe) 8 Median
    (6.0 Min - 10.0 Max)
  • Manganese (Mn) 1.0 Max
  • Carbon (C) 0.15 Max
  • Silicon (Si) 0.5 Max
  • Sulfur (s) 0.015 Max

UNS N06600

Inconel 600 is found in environments from cryogenic to those over 2000º F (1100º C). It is used extensively in furnace components. The chemical processing, electronics and semi-conductor industries make use of this material. Inconel 600 fasteners are valuable in pulp and paper mills due to their resistance to abietic acid.

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Summary

  • Environment:
    Severe Environments: Hot Concentrated Acids & Chemicals
  • Temperature Limit:
    2000 °F / 1093 °C
  • Ultimate Tensile (Typical):
    93 ksi / 641 mpa

Specifications & Technical Data

If your question isn’t answered below, download the technical data sheet here.

Specifications

  • Plate: ASTM B168
  • Bar: ASTM B166

Physical Properties

Physical Constants
Density lb/in3 0.306
Mg/m3 8.47
Melting Range °F 2470-2575
°C 1354-1413
Specific Heat Btu/lb-°F 0.106
J/kg-°C 444
Electrical Resistivity ohm-circ mil/ft 620
μΩ-m 1.03
Curie Temperature °F -192
°C -124
Permeability at 200 oersted 15.9 kA/m 1.010

 

Mechanical Properties

Thermal Properties
Temperature Coefficient of Expansiona Electrical Resistivity Thermal Conductivity Specific Heat
°F 10-6 in/in•°F ohm•circ•mil/ft Btu•in/ft2•h•°F Btu/lb•°F
-250 6.0 86 0.073
-200 6.3 89 0.079
-100 6.7 93 0.090
70 5.8 620 103 0.106
200 7.4 625 109 0.111
400 7.7 634 121 0.116
600 7.9 644 133 0.121
800 8.1 657 145 0.126
1000 8.4 680 158 0.132
1200 8.6 680 172 0.140
1400 8.9 680 186 0.145
1600 9.1 686 200 0.149
1800 9.3 698
2000 704
°C μm/m•°C μΩ•m W/m•°C J/kg•°C
-150 10.9 12.5 310
-100 11.7 13.1 352
-50 12.3 13.6 394
20 10.4 1.03 14.9 444
100 13.3 1.04 15.9 465
200 13.8 1.05 17.3 486
300 14.2 1.07 19.0 502
400 14.5 1.09 20.5 519
500 14.9 1.12 22.1 536
600 15.3 1.13 23.9 578
700 15.8 1.13 25.7 595
800 16.1 1.13 27.5 611
900 16.4 1.15 628

aMean coefficient of linear expansion between 70°F (21°C) and temperature shown except that the room-temperature value was measured from -320°F (-196°C).

Modulus of Elasticity
Temperature Young Modulus Shear Modulus Poisson’s Ratio
°F 103 ksi 103 ksi
72 31.1 11.72 0.327
200 30.5 11.56 0.319
400 29.7 11.32 0.312
600 28.8 11.02 0.307
800 27.8 10.68 0.301
1000 26.7 10.29 0.297
1200 25.5 9.83 0.297
1400 24.3 9.24 0.315
1600 22.8 8.58 0.329
1800 21.0 7.85 0.338
°C GPa GPa Poisson’s Ratio
22 214 80.8 0.324
100 210 79.6 0.319
200 205 78.0 0.314
300 199 76.2 0.306
400 193 74.2 0.301
500 187 71.9 0.300
600 180 69.2 0.301
700 172 65.9 0.305
800 164 62.1 0.320
900 154 57.9 0.330
1000 143 53.4 0.339

 

Emissivity
Temperature, °F (°C)
600 (315) 900 (480) 1200 (650) 1500 (815) 1800 (980) 2000 (1090)
Total Hemispherical Emissivity 0.69 0.72 0.76 0.79 0.82
Total Normal Emissivity As-Rolled and Oxidizeda 0.85 0.87 0.90 0.95 0.98
Sand-Blasted and Oxidizedb 0.86 0.90 0.93 0.96 0.97

aOxidized by heating 13 min in air at 2000°F (1090°C).   bOxidized by heating 15 min at 1500°F (815°C), 15 min at 1800°F (980°C), and 15 min at 2100°F (1150°C).

Tensile Properties

Typical Mechanical-Property Rangesa
Form and Condition Tensile Strength Yield Strength (0.2% Offset) Elongation, % Hardness, Rockwell
ksi MPa ksi MPa
Rod and Bar
Cold-Drawn
Annealed 80-100 550-690 25-50 170-345 55-35 65-85B
As-Drawn 105-150 725-1035 80-125 550-860 30-10 90B-30C
Hot-Finished
Annealed 80-100 550-690 30-50 205-345 55-35 65-85B
Hot-Finished 85-120 585-830 35-90 240-620 50-30 75-95B
Plate
Hot-Rolled
Annealed 80-105 550-725 30-50 205-345 55-35 65-85B
As-Rolled 85-110 580-760 35-65 240-450 50-30 80-95B
Sheet
Cold-Rolled
Annealed 80-100 550-690 30-45 205-310 55-35 88B max.
Hard 120-150 830-1035 90-125 620-860 15-2 24C min.
Strip
Cold-Rolled
Annealed 80-100 550-690 30-45 205-310 55-35 84B max.
Spring Temper 145-170 1000-1170 120-160 830-1100 10-2 30C min.
Tube and Pipe
Hot-Finished
Hot-Finished 75-100 520-690 25-50 170-345 55-35
Annealed 75-100 520-690 25-50 170-345 55-35
Cold-Drawn
Annealed 80-100 550-690 25-50 170-345 55-35 88B max.
Wireb
Cold-Drawn
Annealed 80-120 550-830 35-75 240-520 45-20
No. 1 Temper 105-135 725-930 70-105 480-725 35-15
Spring Temper 170-220 1170-1520 150-210 1035-1450 5-2

aValues shown are composites for various product sizes and therefore are not suitable for specification purposes. bProperties shown are for sizes 0.0625- to 0.250-in. (1.6 to 6.4 mm) dia. Properties for other sizes may vary from these.

High-temperature tensile properties of cold-drawn bar

High-temperature tensile properties of cold-drawn bar.

Room-Temperature Tensile Properties of Hot-Rolled Rod
Heat Treatmenta Tensile Strength Yield Strength (0.2% Offset) Elongation, % Reduction of Area, % Hardness, Rb
°F/1 hr °C/1 hr ksi MPa ksi MPa
As-rolled As-rolled 97.5 672.3 44.5 306.8 46.0 68.0 86
1600 870 95.6 659.1 41.1 283.3 44.0 66.0 85
1700 925 95.6 659.1 41.0 282.7 45.0 46.5 84
1800 980 90.5 624.0 30.4 209.6 49.0 69.5 75
1900 1040 86.5 596.4 20.5 141.3 55.0 71.5 70
2000 1090 86.3 595.0 24.2 166.9 55.0 71.5 70
2100 1150 84.5 582.6 24.0 165.5 57.5 69.5 69

aAir-cooled after all treatments.

Room-Temperature Properties of Forgeda Rod
Heat Treatmentb Tensile Strength Yield Strength (0.2% Offset) Elongation, % Hardness, Rb
°F/1 hr °C/1 hr ksi MPa ksi MPa
As-forged As-forged 99.0 682.6 58.0 399.9 35 91
1300 705 100.5 692.9 61.0 420.6 34 92
1400 760 97.5 672.3 57.0 393.0 31 89
1500 815 98.5 679.2 57.0 393.0 33 91
1600 870 102.0 703.3 62.0 427.5 32 93
1700 925 102.5 706.7 41.5 286.1 39 88

a31% reduction, finished at 1600°F (870°C).   bAir-cooled after all treatments.

Room-Temperature Properties of Hot-Rolled Plate
Heat Treatmenta Tensile Strength Yield Strength (0.2% Offset) Elongation, % Reduction of Area, % Hardness, Rb
°F/1 hr °C/1 hr ksi MPa ksi MPa
As-rolled As-rolled 99.0 682.6 50.2 346.1 42.0 55.5 87
1600 870 98.0 675.7 48.0 331.0 40.0 55.0 87
1700 925 98.5 679.2 49.4 340.6 40.5 58.0 84
1800 980 92.7 639.2 28.9 199.3 49.0 63.0 75
1900 1040 91.0 627.4 27.5 189.6 51.0 65.0 73
2000 1090 89.8 619.2 26.7 184.1 52.5 66.5 72
2100 1150 84.5 582.6 23.5 162.0 58.0 65.0 68

aAir-cooled after all treatments.

Room-Temperature Properties of Cold-Drawn Rod
Heat Treatment Tensile Strength Yield Strength (0.2% Offset) Elongation, % Reduction of Area, % Hardness, Rockwell
°F/1 hr °C/1 hr ksi MPa ksi MPa
As-drawn As-drawn 123.5 851.5 118.5 817.1 16.0 55 28C
1200 650 134.0 923.9 113.0 779.4 20.0 51 23C
1300 705 148.0 1020.5 100.0 689.5 22.0 52 99B
1400 760 118.3 815.7 90.4 623.3 23.5 53 97B
1500 815 99.4 685.4 40.0 275.8 42.0 61 76B
1600 870 99.2 684.0 39.7 273.7 43.0 63 77B

 

Room-Temperature Properties of Cold-Drawn Tubinga
Heat Treatment Tensile Strength Yield Strength (0.2% Offset) Elongation, % Hardness, Rockwell
°F/1 hr °C/1 hr ksi MPa ksi MPa
As-drawn As-drawn 144.0 992.9 132.8 915.7 8.0 34C
1200 650 143.5 989.4 124.0 855.0 17.5 32C
1300 705 131.5 906.7 108.2 746.0 18.0 30C
1400 760 103.0 710.2 41.5 286.1 41.0 88B
1500 815 100.3 691.6 39.7 273.7 42.0 83B
1600 870 100.5 692.9 40.5 279.2 43.0 83B

a0.625-in. (15.9-mm) OD x 0.075-in. (1.9-mm) wall.

Low-temperature tensile properties of cold-drawn rod

Low-temperature tensile properties of cold-drawn rod.

Hot hardness of hot-rolled material.

Inconel 600 Hot hardness of hot-rolled material.

High-temperature tensile properties of annealed, 1600°F (870°C)/1 hr, hot-rolled rod.

Inconel 600 High-temperature tensile properties of annealed, 1600°F (870°C)/1 hr, hot-rolled rod.

High-temperature tensile properties of annealed, 1600°F (870°C)/1 hr, hot-rolled plate.

 

Impact Strength and Ductility

Impact Strength (Charpy Keyhole) of Plate
Orientation Temperature Impact Strength
°F °C ft–lb J
Transverse 70 21 63.5 86.1
-110 -79 65.5 88.8
-320 -196 60.8 82.4
Longitudinal 70 21 61.7 83.7
-110 -79 67.0 90.8
-320 -196 61.3 83.1

aValues are the average of three tests.

Room-Temperature Impact Strength of Rod
Impact Strength
Condition Izod Notch Charpy U-Notch
ft•lb J ft•lb J
Cold-Drawn >120 >163 230 312
Cold-Drawn, Annealed 70-100 95-136 151 205
Hot-Rolled >120 >163 230 312
Hot-Rolled, Annealed 100-120 136-163
Impact Strength (Charpy V-Notch) at Elevated Temperatures
Temperature Impact Strength
Annealed Cold-Drawn
°F °C ft•lb J ft•lb J
70 21 180 244 114 155
800 430 187 254 84 114
1000 540 160 217 86 116
1200 650 160 217 104 141
1400 760 154 209 163 221

 

Shear Properties

Shear Strength of Cold-Rolled Sheet and Strip
Temper Shear Strength Tensile Strength Hardness, Rockwell
ksi MPa ksi MPa
Annealed 60.8 419.2 85.0 586.1 71 B
Half-Hard 66.3 456.8 98.8 681.2 98 B
Full-Hard 82.4 568.1 152.2 1049.5 31 C

 

Fatigue Strength

Room-Temperature Fatigue Strength
Condition Fatigue Strength (108 Cycles) Tensile Strength Average Endurance Ratio
ksi MPa ksi MPa
Annealed 39.0 268.9 85-114 586.1-786.0 0.39
Hot-Rolled 40.5 279.2 87-129.5 600.0-892.9 0.41
Cold-Drawn 45.0 310.3 112.5-202 775.7-1393 0.32
Cold-Drawn, Stress-Equalizeda 52.5 361.0 121.5-173 837.7-1193 0.34

a525°F (274°C) 3 hr.

Low-Cyclea Fatigue of Annealed Rod
Temperature Reversed Strain, %, to Cause Failure In
°F °C 10,000 Cycles 50,000 Cycles 100,000 Cycles
75 24 ±0.36 ±0.21 ±0.18
200 93 ±0.43 ±0.21 ±0.18
400 204 ±0.58 ±0.26 ±0.20
600 316 ±0.52 ±0.23 ±0.18

a550 cycles/hr.

Room-Temperature Low-Cyclea Fatigue of Forgings
Material Condition Reversed Strain, %, to Cause Failure In
1000 Cycles 10,000 Cycles 50,000 Cycles
As-Forged ±1.25 ±0.50 ±0.35
Stress-Relieved 1400°F (760°C)/4 hr ±1.25 ±0.47 ±0.27

a675 cycles/hr.

Rotating-beam fatigue strength (108 cycles) of cold-drawn, annealed rod at elevated temperatures

Rotating-beam fatigue strength (108cycles) of cold-drawn, annealed rod at elevated temperatures.

Low-cycle fatigue strength of forgings in four conditions

Inconel 600 low-cycle fatigue strength of forgings in four conditions.

Rotating-beam fatigue strength of forgings in four conditions

Inconel 600 Rotating-beam fatigue strength of forgings in four conditions.

 

Creep and Rupture Properties

Room-Temperature Properties of Material Forged by Four Different Practices
Condition Tensile Strength Yield Strength (0.2% Offset) Elongation, % Reduction of Area, % Hardness, Rb Grain Size
ksi MPa ksi MPa in. mm
Fine Grain, Hard 103.0 710 64.6 445 35.0 60.3 93.0 0.0028a 0.0711
Fine Grain, Soft 92.0 634 40.5 279 44.0 61.0 83.5 0.0028a 0.0711
Coarse Grain, Hard 102.0 703 74.7 515 28.0 56.7 94.0 0.006-0.02b 0.152-0.51b
Coarse Grain, Soft 86.4 596 32.7 225 61.7 50.7 76.5 0.006-0.02b 0.152-0.51b

aAverage diameter.   bMixed grain size.

Creep Properties
Temperature Stress for a Secondary Creep Rate of:
0.01%/1000 hr 0.1%/1000 hr
Cold-Drawn, Annealeda Solution-Treatedb Cold-Drawn, Annealeda Solution-Treatedb
°F °C ksi MPa ksi MPa ksi MPa ksi MPa
800 427 30.00 206.9 40.00 275.8
900 482 18.00 124.1 28.00 193.1
1000 538 6.10 42.1 12.50 86.2
1100 593 3.40 23.4 6.80 46.9
1200 649 2.20 15.2
1300 704 1.40 9.7 4.00 27.6 5.00 34.5
1400 760 0.97 6.7 3.50 24.1
1500 816 0.66 4.6 2.80 19.3 3.20 22.1
1600 871 0.45 3.1 1.70 11.7 0.88 6.1 2.00 13.8
1700 927 0.81 5.6 1.10 7.6
1800 982 0.34 2.3 0.35 2.4 0.56 3.9 0.56 3.9
2000 1093 0.16 1.1 0.16 1.1 0.27 1.9 0.27 1.9
2100 1149 0.10 0.7 0.10 0.7 0.17 1.2 0.17 1.2

a1750°F (954°C)/3 hr, A.C     b2050°F (1121°C)/2 hr, A.C.

Creep rates of plate in the as-hot-rolled condition (1000°F-1300°F (538°C-704°C) data) and in the hot-rolled and solution-annealed (2050°F (1121°C)/2 h) condition (1500°F-2000°F (816°C-1093°C) data).

Inconel 600 Creep rates of plate in the as-hot-rolled condition (1000°F-1300°F (538°C-704°C) data) and in the hot-rolled and solutionannealed (2050°F (1121°C)/2 h) condition (1500°F-2000°F (816°C-1093°C) data).

Rupture Properties
Temperature Stressa to Produce Rupture in
10 hr 100 hr 1,000 hr 10,000 hr 100,000 hr
°F °C ksi MPa ksi MPa ksi MPa ksi MPa ksi MPa
Cold-Drawn, Annealed at 1750°F (954°C)/3 hr, A.C.
100 538 74.00 510.2 50.00 344.8 34.00 234.4 23.00 158.6 16.00 110.3
1200 649 34.00 234.4 23.00 158.6 14.50 100.0 9.40 64.8 6.00 41.4
1400 760 13.00 89.6 8.40 57.9 5.60 38.6 3.60 24.8 2.40 16.5
1600 871 7.50 51.7 4.80 33.1 3.00 20.7 1.90 13.1 1.20 8.3
1800 982 4.40 30.3 2.80 19.3 1.80 12.4 1.15 7.9 0.73 5.0
2000 1093 2.10 14.5 1.40 9.7 0.92 6.3 0.62 4.3 0.42 2.9
Hot-Rolled, Annealed at 1650°F (899°C)/2 hr
1350 732 20.00 137.9 13.50 93.1 9.20 63.4 6.40 44.1 4.40 30.3
1600 871 8.10 55.8 5.30 36.5 3.50 24.1 2.20 15.2 1.50 10.3
1800 982 4.40 30.3 2.80 19.3 1.80 12.4 1.15 7.9 0.73 5.0
2000 1093 2.10 14.5 1.40 9.7 0.92 6.3 0.62 4.3 0.40 2.8
Solution-Treated at 2050°F (1121°C)/2 hr, A.C.
1350 732 19.00 131.0 14.00 96.5 9.80 67.6 7.00 48.3 5.00 34.5
1500 816 11.50 79.3 8.00 55.2 5.60 38.6 4.00 27.6 2.80 19.3
1600 871 8.00 55.2 5.30 36.5 3.50 24.1 2.30 15.9 1.50 10.3
1800 982 4.40 30.3 2.80 19.3 1.80 12.4 1.15 7.9 0.73 5.0
2000 1093 2.10 14.5 1.40 9.7 0.92 6.3 0.62 4.3 0.40 2.8
2100 1149 1.60 11.0 1.10 7.6

aValues in bold are extrapolated.

Rupture life of plate in the as-hot-rolled condition (1000°F-1300°F (538°C-704°C) data) and in the hot-rolled and solutionannealed (2050°F (1121°C)/2h) condition (1350°F-2000°F (732°C-1093°C) data)

Rupture life of plate in the as-hot-rolled condition (1000°F-1300°F (538°C-704°C) data) and in the hot-rolled and solutionannealed (2050°F (1121°C)/2h) condition (1350°F-2000°F (732°C-1093°C) data).

Room-Temperature Mechanical Properties of Creep-Test Specimensa
Conditions of Creep Test Room-Temperature Properties
Temperature Stress Duration, hr Tensile Strength Yield Strength (0.2% Offset) Elongation, % Reduction of Area, % Hardness, Rb
°F °C ksi MPa ksi MPa ksi MPa
80 27 0 0 0 97.30 670.9 35.60 245.5 41 66 79
800 427 50.00 344.8 1945 101.00 696.4 60.30 415.8 40 65 90
800 427 30.00 206.9 1874 96.80 667.4 40.80 281.3 43 64 80
900 482 40.00 275.8 1508 98.00 675.7 57.80 398.5 46 66 90
900 482 30.00 206.9 1900 96.50 665.4 39.40 271.7 44 67 80
900 482 20.00 137.9 1969 96.30 664.0 39.40 271.7 45 65 80
1000 538 20.00 137.9 264 96.60 666.1 40.80 281.3 44 64 80
1000 538 15.00 103.4 2159 95.50 658.5 36.60 252.4 43 65 80
1000 538 10.00 69.0 1942 93.70 646.1 36.70 253.0 44 65 80
1100 593 10.00 69.0 576 98.20 677.1 40.40 278.6 43 65 80
1100 593 5.00 34.5 1602 94.50 651.6 35.10 242.0 43 65 80
1100 593 2.50 17.2 2205 96.60 666.1 35.80 246.8 42 65 80

aCold-drawn rod, annealed 1750°F (954°C)/3 hr, A.C.

Room-Temperature Impact Strength of Creep-Test Specimensa
Conditions of Creep Test Room-Temperature Properties
Temperature Stress Duration, hr Modified Izod Impact Strength Hardness, Rb
°F °C ksi MPa ft•lb J
80 27 0 0 0 94-95 127-129 79
800 427 40 275.8 1861 76-78 103-106 80
900 482 30 206.9 1617 90-96 122-130 80
900 482 15 103.4 1876 97-98 132-133 80
1000 538 20 137.9 582 85 115 80
1000 538 5 34.5 2022 87-89 118-121 80
1100 593 5 34.5 1850 101-109  137-148 80

aCold-drawn rod, annealed 1750°F (954°C)/3 hr, A.C.

Corrosion Resistance

Gas Carburization Tests (100 h) in Hydrogen/2% Methane
Alloy Weight Gain, mg/cm2
1700°F (925°C) 2000°F (1095°C)a
INCONEL alloy 600 2.66 12.30
INCONEL alloy 601 2.72 16.18
INCOLOY alloy 800HT 4.94 21.58
Type 330 Stainless Steel 6.42 24.00

aAtmosphere also contained 5% argon.

Results of cyclic oxidation tests at 1800°F (980°C). Cycles were 15 minutes of heating and 5 minutes of cooling in air

Results of cyclic oxidation tests at 1800°F (980°C). Cycles were 15 minutes of heating and 5 minutes of cooling in air.

 

Hot and Cold Forming

Effect of Cold Work on Recrystallization Temperature of Cold-Rolled, Fine-Grain Sheet
Cold Reduction, % Temperature Required for Recrystallization in
15 min 30 min 60 min 120 min
°F °C °F °C °F °C °F °C
5 1775 968 1750 954 1700 927 1700 927
10 1650 899 1600 871 1550 843 1550 843
20 1525 829 1475 802 1425 774 1425 774
50 1350 732 1325 718 1275 691 1275 691
80 1250 677 1225 663 1200 649 1200 649

 

Welding

Thermal Expansion of Weld Metals
Material Mean Linear Expansiona
10-6 in/in-°F μm/m-°C
200°F 300°F 400°F 500°F 600°F 93°C 149°C 204°C 260°C 316°C
INCONEL alloy 600 7.4 7.7 7.9 13.3 13.9 14.2
INCONEL Filler Metal 82 6.7 7.2 7.6 7.8 7.9 12.1 13.0 13.7 14.0 14.2
INCONEL Welding Electrode 182 7.6 8.0 8.1 8.2 8.3 13.7 14.4 14.6 14.8 14.9

aFrom 70°F (21°C) to temperature shown.

Impact Strength (Charpy Keyhole) of INCONEL Welding Electrode 182 Deposited Weld Metal
Temperature Impact Strengtha
°F °C ft•lb J
70 21 48.8 66.2
-110 -79 46.5 63.0
-320 -196 42.2 57.2

aValues at 70°F (21°C) and -110°F (-79°C) are the average of three tests; value at -320°F (-196°C) is the average of two tests.

Room-Temperature Tensile Properties of All-Weld-Metal Deposits
Welding Material Tensile Strength Yield Strength (0.2% Offset) Elongation in 1.25 in (31.75 mm), %
ksi MPa ksi MPa
INCONEL Filler Metal 82a 96.20 663.3 57.10 393.7 45
INCONEL Welding Electrode 182a 92.40 637.1 55.10 379.9 44
INCONEL Welding Electrode 182b 98.80 681.2 61.40 423.4 40

a0.505-in. (12.83 mm)-dia. specimen.     b0.252-in. (6.40-mm)-dia. specimen.

High-temperature tensile properties of welds made with INCONEL FIller Metal 82 (left) and INCONEL Welding Electrode 182 (right)

High-temperature tensile properties of welds made with INCONEL FIller Metal 82 (left) and INCONEL Welding Electrode 182 (right)

Rupture Strength of All-Weld-Metal Deposits
Welding Material Temperature Stressto Produce Rupture in
100 hr 1000 hr 10,000 hr
°F °C ksi MPa ksi MPa ksi MPa
INCONEL Filler Metal 82 1000 538 58.00 399.9 52.00 358.5 47.00 324.1
1200 649 36.50 251.7 27.50 189.6 20.50 141.3
1400 760 16.00 110.3 11.50 79.3 8.30 57.2
1600 871 6.80 46.9 3.50 24.1 1.75 12.1
1800 982 2.70 18.6 1.25 8.6 0.57 3.9
INCONEL Welding Electrode 182 1000 538 53.00 365.4 50.00 344.8 41.00 282.7
1200 649 34.00 234.4 22.50 155.1 14.50 100.0
1350 732 13.50 93.1 8.20 56.5 4.90 33.8
1500 816 7.00 48.3 4.00 27.6 2.25 15.5
1600 871 4.00 27.6 2.15 14.8 1.15 7.9
1800 982 1.70 11.7 0.82 5.7 0.41 2.8
INCO-WELD A Electrode 1000 538 60.00 413.7 51.00 351.6 39.00 268.9
1200 649 35.00 241.3 24.50 168.9 16.00 110.3
1400 760 16.50 113.8 11.00 75.8 7.10 48.9
1600 871 7.00 48.3 3.65 25.2 1.90 13.1
1800 982 2.30 15.9 0.90 6.2

aValues in bold are extrapolated.

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