|
Physical Properties |
Metric |
English |
Comments |
| Density |
9.22 g/cc |
0.333 lb/in=A9=F8 |
|
|
Mechanical Properties |
Metric |
English |
Comments |
| Hardness, Brinell |
298 |
298 |
Estimated from Rockwell C |
| Hardness, Knoop |
352 |
352 |
Estimated from Rockwell C |
| Hardness, Rockwell A |
66.5 |
66.5 |
Estimated from Rockwell C |
| Hardness, Rockwell C |
32 |
32 |
|
| Hardness, Vickers |
309 |
309 |
Estimated from Rockwell C |
| Modulus of Elasticity |
189 GPa @Thickness 12.7 mm, Temperature 538 =A1=C6C |
27400 ksi @Thickness 0.500 in, Temperature 1000 =A1=C6F |
(Heat treated at 1066=A1=C6C (1950=A1=C6F), rapid quenched, plate) |
|
196 GPa @Thickness 12.7 mm, Temperature 427 =A1=C6C |
28400 ksi @Thickness 0.500 in, Temperature 800 =A1=C6F |
(Heat treated at 1066=A1=C6C (1950=A1=C6F), rapid quenched, plate) |
|
|
202 GPa @Thickness 12.7 mm, Temperature 316 =A1=C6C |
29300 ksi @Thickness 0.500 in, Temperature 600 =A1=C6F |
(Heat treated at 1066=A1=C6C (1950=A1=C6F), rapid quenched, plate) |
|
|
217 GPa @Thickness 12.7 mm, Temperature 21.1 =A1=C6C |
31500 ksi @Thickness 0.500 in, Temperature 70.0 =A1=C6F |
(Heat treated at 1066=A1=C6C (1950=A1=C6F), rapid quenched, plate) |
|
|
Electrical Properties |
Metric |
English |
Comments |
| Electrical Resistivity |
0.000137 ohm-cm @Temperature 0.000 =A1=C6C |
0.000137 ohm-cm @Temperature 32.0 =A1=C6F |
|
|
0.000138 ohm-cm @Temperature 100 =A1=C6C |
0.000138 ohm-cm @Temperature 212 =A1=C6F |
||
|
0.000138 ohm-cm @Temperature 200 =A1=C6C |
0.000138 ohm-cm @Temperature 392 =A1=C6F |
||
|
0.000139 ohm-cm @Temperature 300 =A1=C6C |
0.000139 ohm-cm @Temperature 572 =A1=C6F |
||
|
0.000139 ohm-cm @Temperature 400 =A1=C6C |
0.000139 ohm-cm @Temperature 752 =A1=C6F |
||
|
0.000141 ohm-cm @Temperature 500 =A1=C6C |
0.000141 ohm-cm @Temperature 932 =A1=C6F |
||
|
0.000146 ohm-cm @Temperature 600 =A1=C6C |
0.000146 ohm-cm @Temperature 1110 =A1=C6F |
||
|
Thermal Properties |
Metric |
English |
Comments |
| CTE, linear |
10.3 =A5=ECm/m-=A1=C6C @Temperature 20.0 – 93.0 =A1=C6C |
5.72 =A5=ECin/in-=A1=C6F @Temperature 68.0 – 199 =A1=C6F |
|
|
10.8 =A5=ECm/m-=A1=C6C @Temperature 20.0 – 204 =A1=C6C |
6.00 =A5=ECin/in-=A1=C6F @Temperature 68.0 – 399 =A1=C6F |
||
|
11.2 =A5=ECm/m-=A1=C6C @Temperature 20.0 – 316 =A1=C6C |
6.22 =A5=ECin/in-=A1=C6F @Temperature 68.0 – 601 =A1=C6F |
||
|
11.5 =A5=ECm/m-=A1=C6C @Temperature 20.0 – 427 =A1=C6C |
6.39 =A5=ECin/in-=A1=C6F @Temperature 68.0 – 801 =A1=C6F |
||
|
11.7 =A5=ECm/m-=A1=C6C @Temperature 20.0 – 538 =A1=C6C |
6.50 =A5=ECin/in-=A1=C6F @Temperature 68.0 – 1000 =A1=C6F |
||
| Specific Heat Capacity |
0.373 J/g-=A1=C6C @Temperature 0.000 =A1=C6C |
0.0891 BTU/lb-=A1=C6F @Temperature 32.0 =A1=C6F |
|
|
0.389 J/g-=A1=C6C @Temperature 100 =A1=C6C |
0.0930 BTU/lb-=A1=C6F @Temperature 212 =A1=C6F |
||
|
0.406 J/g-=A1=C6C @Temperature 200 =A1=C6C |
0.0970 BTU/lb-=A1=C6F @Temperature 392 =A1=C6F |
||
|
0.423 J/g-=A1=C6C @Temperature 300 =A1=C6C |
0.101 BTU/lb-=A1=C6F @Temperature 572 =A1=C6F |
||
|
0.431 J/g-=A1=C6C @Temperature 400 =A1=C6C |
0.103 BTU/lb-=A1=C6F @Temperature 752 =A1=C6F |
||
|
0.444 J/g-=A1=C6C @Temperature 500 =A1=C6C |
0.106 BTU/lb-=A1=C6F @Temperature 932 =A1=C6F |
||
|
0.456 J/g-=A1=C6C @Temperature 600 =A1=C6C |
0.109 BTU/lb-=A1=C6F @Temperature 1110 =A1=C6F |
||
| Thermal Conductivity |
11.1 W/m-K @Temperature 0.000 =A1=C6C |
77.0 BTU-in/hr-ft=A9=F7-=A1=C6F @Temperature 32.0 =A1=C6F |
|
|
12.2 W/m-K @Temperature 100 =A1=C6C |
84.7 BTU-in/hr-ft=A9=F7-=A1=C6F @Temperature 212 =A1=C6F |
||
|
13.4 W/m-K @Temperature 200 =A1=C6C |
93.0 BTU-in/hr-ft=A9=F7-=A1=C6F @Temperature 392 =A1=C6F |
||
|
14.6 W/m-K @Temperature 300 =A1=C6C |
101 BTU-in/hr-ft=A9=F7-=A1=C6F @Temperature 572 =A1=C6F |
||
|
16.0 W/m-K @Temperature 400 =A1=C6C |
111 BTU-in/hr-ft=A9=F7-=A1=C6F @Temperature 752 =A1=C6F |
||
|
17.3 W/m-K @Temperature 500 =A1=C6C |
120 BTU-in/hr-ft=A9=F7-=A1=C6F @Temperature 932 =A1=C6F |
||
|
18.7 W/m-K @Temperature 600 =A1=C6C |
130 BTU-in/hr-ft=A9=F7-=A1=C6F @Temperature 1110 =A1=C6F |
||
|
Component Elements Properties |
Metric |
English |
Comments |
| Carbon, C |
0.010 % |
0.010 % |
|
| Chromium, Cr |
1.0 % |
1.0 % |
|
| Cobalt, Co |
<=3D 1.0 % |
<=3D 1.0 % |
|
| Iron, Fe |
<=3D 2.0 % |
<=3D 2.0 % |
|
| Manganese, Mn |
<=3D 1.0 % |
<=3D 1.0 % |
|
| Molybdenum, Mo |
28 % |
28 % |
|
| Nickel, Ni |
69 % |
69 % |
|
| Silicon, Si |
<=3D 0.10 % |
<=3D 0.10 % |
Material Category: Hastelloy™
Hastelloy X
Do you need custom fasteners created with Hastelloy X? Since our inception, Vegas Fastener Group has met every challenge of providing quality, timely, cost-effective solutions for specialty fastener applications. Every product is built to your specifications, using your prints if necessary.
Below are the technical specifications of the Hastelloy X Bar Stock we have available to meet your needs.
Universal Wire Works Hastelloy™ X (AMS 5798) Filler Metal
Subcategory: Metal; Nickel Alloy; Nickel Base; Nonferrous Metal; Superalloy
| Component | Wt. % |
| B | Max 0.01 |
| C | 0.1 |
| Co | 1.5 |
| Cr | 22 |
| Fe | 19 |
| Mn | Max 1 |
| Mo | 9 |
| Ni | Min 45.7 |
| P | Max 0.04 |
| S | Max 0.03 |
| Si | Max 1 |
| W | 0.6 |
Material Notes: Nickel content is calculated as remainder.
Hastelloy Alloy X welding wire can be used with the gas tungsten arc, gas metal arc and plasma welding processes. Alloy X is used extensively in high temperature applications including engine tailpipes, turbine blades, afterburner components, nozzle vanes, cabin heaters and combustion liners.
Information provided by Universal Wire Works for their line of welding wire and filler metal.
We’re sorry, but our sources do not report any other information for this material.
Hastelloy G
Do you need custom fasteners created with Hastelloy™ G-50? Since our inception, Vegas Fastener Group has met every challenge of providing Quality, Timely, Cost-effective solutions for specialty fastener applications. Every product is built to your specifications, using your prints if necessary.
Below are the technical specifications of the Hastelloy™ G Bar Stock we have available to meet your needs.
CABVAL Hastelloy® G-50™ Grade 100 Ni-Cr-Fe-Mo Alloy
Subcategory: Metal; Nickel Base; Nonferrous Metal; Superalloy Key Words: UNS N06950
| Component | Wt. % |
| Al | Max 0.4 |
| C | Max 0.02 |
| Co | Max 2.5 |
| Cr | 19 – 21 |
| Cu | Max 0.5 |
| Fe | 15 – 20 |
| Mn | Max 1 |
| Mo | 8 – 10 |
| Nb | Max 0.5 |
| Ni | Min50 |
| P | Max 0.04 |
| S | Max 0.015 |
| Si | Max 1 |
| W | Max 1 |
Material Notes: Developed as a lower cost alternative to Hastelloy C-276 for use by producers of sour gas. Improved corrosion resistance compared to G-3 in service with high hydrogen disulfide concentrations in combination with carbon dioxide, chloride, etc. Its corrosion resistance at elevated temperatures falls between G-3 and C-276 in 15% HCl and in hydrogen sulfide sress corrosion cracking tests. G-50 alloy lends itself to consistent methods of manufacture of tubular products.
Data provided by CABVAL, a joint venture between Haynes International and Vallourec Industries.
| Physical Properties | Metric | English | Comments |
| Density | 8.33 g/cc | 0.301 lb/in³ | |
| Mechanical Properties | |||
| Hardness, Brinell | 290 | 290 | Estimated from Rockwell C for Brinell 10 mm ball/3000 kg load |
| Hardness, Knoop | 345 | 345 | Estimated from Rockwell C |
| Hardness, Rockwell A | 66 | 66 | Estimated from Rockwell C |
| Hardness, Rockwell C | Max 31 | Max 31 | |
| Hardness, Vickers | 300 | 300 | Estimated from Rockwell C |
| Tensile Strength, Ultimate | Min 760 MPa | Min 110000 psi | |
| Tensile Strength, Yield | 700 – 860 MPa | 102000 – 125000 psi | 0.2% offset |
| Elongation at Break | Min 20 % | Min 20 % | |
| Modulus of Elasticity | 192 GPa | 27800 ksi | Room Temp |
| Thermal Properties | |||
| CTE, linear 20°C | 13 µm/m-°C | 7.22 µin/in-°F | 20-95°C |
| CTE, linear 250°C | 14.09 µm/m-°C | 7.83 µin/in-°F | 20-315°C; value is 13.54 µm/m-C from 20 – 204°C |
Hastelloy C-2000
Do you need custom fasteners created with Hastelloy™ C? Since our inception, Vegas Fastener Group has met every challenge of providing Quality, Timely, Cost-effective solutions for specialty fastener applications. Every product is built to your specifications, using your prints if necessary.
Below are the technical specifications of the Hastelloy™ C Bar Stock we have available to meet your needs.
Hastelloy® C-2000™ alloy, 0.500 inch thick
Subcategory: Metal; Nickel Base; Superalloy
| Component | Wt. % |
| C | Max 0.01 |
| Cr | 23 |
| Cu | 1.6 |
| Mo | 16 |
| Ni | 59 |
| Si | Max 0.08 |
Material Notes: Ni content to balance. Outstanding resistance to oxidizing media, superior resistance to reducing environments.
Data provided by the manufacturer, Haynes International, Inc.
| Physical Properties | Metric | English | Comments |
| Density | 8.5 g/cc | 0.307 lb/in³ | at RT |
| Mechanical Properties | |||
| Tensile Strength, Ultimate | 758 MPa | 110000 psi | |
| Tensile Strength, Yield | 345 MPa | 50000 psi | at 0.2% offset |
| Elongation at Break | 68 % | 68 % | in 50.8 mm |
| Electrical Properties | |||
| Electrical Resistivity | 0.000128 ohm-cm | 0.000128 ohm-cm | RT |
| Electrical Resistivity at Elevated Temperature | 0.000129 ohm-cm | 0.000129 ohm-cm | 100°C (212°F) |
| Electrical Resistivity at Elevated Temperature | 0.000131 ohm-cm | 0.000131 ohm-cm | 300°C (570°F) |
| Electrical Resistivity at Elevated Temperature | 0.000132 ohm-cm | 0.000132 ohm-cm | 900°C (1650°F) |
| Electrical Resistivity at Elevated Temperature | 0.000134 ohm-cm | 0.000134 ohm-cm | 700°C (1290°F) |
| Electrical Resistivity at Elevated Temperature | 0.000134 ohm-cm | 0.000134 ohm-cm | 500°C (9300°F) |
| Thermal Properties | |||
| CTE, linear 250°C | 12.4 µm/m-°C | 6.89 µin/in-°F | 25-100°C (77-212°F) |
| CTE, linear 250°C | 12.6 µm/m-°C | 7 µin/in-°F | 25-300°C (77-570°F) |
| CTE, linear 500°C | 13.2 µm/m-°C | 7.33 µin/in-°F | 25-500°C (77-930°F) |
| CTE, linear 500°C | 14 µm/m-°C | 7.78 µin/in-°F | 25-700°C (77-1290°F) |
| CTE, linear 1000°C | 15 µm/m-°C | 8.33 µin/in-°F | 25-900°C (77-1650°F) |
| Thermal Conductivity | 9.1 W/m-K | 63.2 BTU-in/hr-ft²-°F | RT |
| Thermal Conductivity at Elevated Temperature | 10.8 W/m-K | 75 BTU-in/hr-ft²-°F | 100°C (212°F) |
| Thermal Conductivity at Elevated Temperature | 14.1 W/m-K | 97.9 BTU-in/hr-ft²-°F | 300°C (570°F) |
| Thermal Conductivity at Elevated Temperature | 18 W/m-K | 125 BTU-in/hr-ft²-°F | 500°C (930°F) |
| Thermal Conductivity at Elevated Temperature | 24.8 W/m-K | 172 BTU-in/hr-ft²-°F | 700°C (1290°F) |
| Thermal Conductivity at Elevated Temperature | 25.9 W/m-K | 180 BTU-in/hr-ft²-°F | 900°C (1650°F) |
Hastelloy C 276
Do you need custom Hastelloy fasteners created with Hastelloy C 276? Since our inception, Vegas Fastener Group has met every challenge of providing quality, timely, cost-effective solutions for specialty fastener applications. Every product is built to your specifications, using your prints if necessary.
Below are the material properties, composition, and technical specifications of the Hastelloy C276 Bar Stock we have available to meet your needs.
Hastelloy® C 276 alloy
Subcategory: Metal; Nickel Base; Superalloy Key Words: ASME SB-622, ASME SB-626 SCC resistant, flue-gas desulfurization systems, UNS N10276, ASME SB-574, ASME SB-575, ASME SB-619
| Component | Wt. % |
| C | Max 0.01 |
| Co | Max 2.5 |
| Cr | 14.5 – 16.5 |
| Fe | 4 – 7 |
| Mn | Max 1 |
| Mo | 15 – 17 |
| Ni | 57 |
| P | Max 0.025 |
| S | Max 0.01 |
| Si | Max 0.08 |
| V | Max 0.35 |
| W | 3 – 4.5 |
Material Notes: Versatile corrosion-resistant alloy, usually does not need to be solution heat treated after welding and has vastly improved fabricability, excellent resistance to localized corrosion and to both oxidizing and reducing media. Resists formation of grain-boundary precipitates and is therefore suitable for chemical process applications in the as-welded condition. C-276 has excellent resistance to strong oxidizers like ferric and cupric chlorides, hot contaminated media (organic and inorganic), chlorine, formic and acetic acids, acetic anhydride, seawater, brine solutions, sulfur compounds, wet chlorine gas, hypochlorite and chlorine dioxide.
Data provided by the manufacturer, Haynes International, Inc.
| Physical Properties | Metric | English | Comments |
| Density | 8.89 g/cc | 0.321 lb/in³ | at RT |
| Mechanical Properties | |||
| Hardness, Rockwell B | 90 | 90 | Average room temperature hardness for sheet (average of 49 tests); 87 HRB average room temperature hardness for plate (average of 35 tests) |
| Hardness, Vickers | 191 | 191 | Conversion from Rockwell B hardness. |
| Tensile Strength, Ultimate | 826.7 MPa | 120000 psi | |
| Tensile Strength, Yield | 364.7 MPa | 52900 psi | at 0.2% offset |
| Elongation at Break | 59 % | 59 % | in 50.8 mm |
| Modulus of Elasticity | 205 GPa | 29700 ksi | RT |
| Modulus of Elasticity at Elevated Temperature | 176 GPa | 25500 ksi | heat treated at 1121°C (2050°F) and rapid quenched; 538°C |
| Modulus of Elasticity at Elevated Temperature | 182 GPa | 26400 ksi | heat treated at 1121°C (2050°F) and rapid quenched; 427°C |
| Modulus of Elasticity at Elevated Temperature | 188 GPa | 27300 ksi | heat treated at 1121°C (2050°F) and rapid quenched; 316°C |
| Modulus of Elasticity at Elevated Temperature | 195 GPa | 28300 ksi | heat treated at 1121°C (2050°F) and rapid quenched; 204°C |
| Charpy Impact | 357 J | 263 ft-lb | at -196°C solution heat treated at 1121°C (2050°F), rapid quenched; 339 J at -196°C aged 100 hours at 260°C; 130 J at -196°C aged 100 hours at 538°C (1000°F); 87 J at -196°C aged 1000 hours at 538°C (1000°F) |
| Electrical Properties | |||
| Electrical Resistivity | 0.00013 ohm-cm | 0.00013 ohm-cm | 24°C (75°F) |
| Thermal Properties | |||
| CTE, linear 20°C | 11.2 µm/m-°C | 6.22 µin/in-°F | 24-93°C (75-200°F) |
| CTE, linear 250°C | 12 µm/m-°C | 6.67 µin/in-°F | 24-204°C (75-400°F) |
| CTE, linear 500°C | 12.8 µm/m-°C | 7.11 µin/in-°F | 24-316°C (75-600°F) |
| CTE, linear 500°C | 13.2 µm/m-°C | 7.33 µin/in-°F | 24-538°C (75-1000°F) |
| CTE, linear 500°C | 13.2 µm/m-°C | 7.33 µin/in-°F | 24-427°C (75-800°F) |
| Heat Capacity | 0.427 J/g-°C | 0.102 BTU/lb-°F | RT |
| Thermal Conductivity | 10.2 W/m-K | 70.8 BTU-in/hr-ft²-°F | 38°C |
| Thermal Conductivity | 7.2 W/m-K | 50 BTU-in/hr-ft²-°F | -168°C |
| Thermal Conductivity | 8.6 W/m-K | 59.7 BTU-in/hr-ft²-°F | -73°C |
| Thermal Conductivity | 9.4 W/m-K | 65.2 BTU-in/hr-ft²-°F | -18°C |
| Thermal Conductivity at Elevated Temperature | 11.1 W/m-K | 77 BTU-in/hr-ft²-°F | 93°C |
| Thermal Conductivity at Elevated Temperature | 13 W/m-K | 90.2 BTU-in/hr-ft²-°F | 204°C |
| Thermal Conductivity at Elevated Temperature | 15 W/m-K | 104 BTU-in/hr-ft²-°F | 316°C |
| Thermal Conductivity at Elevated Temperature | 16.9 W/m-K | 117 BTU-in/hr-ft²-°F | 427°C |
| Thermal Conductivity at Elevated Temperature | 19 W/m-K | 132 BTU-in/hr-ft²-°F | 538°C |
| Melting Point | 1323 – 1371 °C | 2410 – 2500 °F | |
| Solidus | 1323 °C | 2410 °F | |
| Liquidus | 1371 °C | 2500 °F | |
Hastelloy C-22
Do you need custom fasteners created with Hastelloy™ C? Since our inception, Vegas Fastener Group has met every challenge of providing Quality, Timely, Cost-effective solutions for specialty fastener applications. Every product is built to your specifications, using your prints if necessary.
Below are the technical specifications of the Hastelloy™ C Bar Stock we have available to meet your needs.
Hastelloy® C-22® alloy, 0% cold worked sheet
Subcategory: Metal; Nickel Base; Superalloy Key Words: ASME SB-622, ASME SB-626 ASTM B-574, ASTM B-575, ASTM B-619, ASTM B-622, ASTM B-626, DIN 17744 No. 2.4602, TUV Werstoffblatt 479, UNS N06022, ASME SB-574, ASME SB-575, ASME SB-619, NACE MR-01-75
| Component | Wt. % |
| C | Max 0.01 |
| Co | Max 2.5 |
| Cr | 22 |
| Fe | 3 |
| Mn | Max 0.5 |
| Mo | 13 |
| Ni | 56 |
| Si | Max 0.08 |
| V | Max 0.35 |
| W | 3 |
Material Notes: Outstanding resistance to localized corrosion and excellent resistance to stress corrosion cracking, best alloy to use as a universal weld filler metal to resist corrosion of weldments. Applications include acetic acid/acetic anhydride, acid etching, cellophane manufacturing, chlorination systems, complex acid mixtures, electro-galvanizing rolls, expansion bellows, flue gas scrubber systems, geothermal wells, HF furnace scrubbers, incinerator scrubber systems, nuclear fuel reprocessing, pesticide production, phosphoric acid production, pickling systems, plate heat exchangers, selective leaching systems, SO2 cooling towers, sulfonation systems, tubular heat exchangers, weld overlay-valves.
Data provided by the manufacturer, Haynes International, Inc.
| Physical Properties | Metric | English | Comments |
| Density | 8.69 g/cc | 0.314 lb/in³ | at 24°C (75°F) |
| Mechanical Properties | |||
| Hardness, Rockwell B | 93 | 93 | sheet; average at room temperature |
| Hardness, Rockwell B | 95 | 95 | plate; average room temperature hardness. |
| Tensile Strength, Ultimate | 800 MPa | 116000 psi | |
| Tensile Strength, Yield | 407 MPa | 59000 psi | at 0.2% offset |
| Elongation at Break | 57 % | 57 % | in 50.8 mm |
| Modulus of Elasticity | 203 GPa | 29400 ksi | heat-treated at 1121°C (2050°F), rapid quenched, plate; 93°C |
| Modulus of Elasticity | 206 GPa | 29900 ksi | heat-treated at 1121°C (2050°F), rapid quenched, plate; 22°C |
| Modulus of Elasticity at Elevated Temperature | 145 GPa | 21000 ksi | heat-treated at 1121°C (2050°F), rapid quenched, plate; 982°C |
| Modulus of Elasticity at Elevated Temperature | 154 GPa | 22300 ksi | heat-treated at 1121°C (2050°F), rapid quenched, plate; 871°C |
| Modulus of Elasticity at Elevated Temperature | 163 GPa | 23600 ksi | heat-treated at 1121°C (2050°F), rapid quenched, plate; 760°C |
| Modulus of Elasticity at Elevated Temperature | 171 GPa | 24800 ksi | heat-treated at 1121°C (2050°F), rapid quenched, plate; 649°C |
| Modulus of Elasticity at Elevated Temperature | 177 GPa | 25700 ksi | heat-treated at 1121°C (2050°F), rapid quenched, plate; 538°C |
| Modulus of Elasticity at Elevated Temperature | 183 GPa | 26500 ksi | heat-treated at 1121°C (2050°F), rapid quenched, plate; 427°C |
| Modulus of Elasticity at Elevated Temperature | 190 GPa | 27600 ksi | heat-treated at 1121°C (2050°F), rapid quenched, plate; 316°C |
| Modulus of Elasticity at Elevated Temperature | 196 GPa | 28400 ksi | heat-treated at 1121°C (2050°F), rapid quenched, plate; 204°C |
| Charpy Impact | 353 J | 260 ft-lb | heat treated at 1121°C (2050°F) rapid quenched tested at RT; 351 J heat treated at 1121°C (2050°F) rapid quenched tested at -196°C; 351 J aged 100 hours at 260°C tested at -196°C, 351 J aged 100 hours at 538°C (1000°F) tested at -196°C; 118 J aged 1000 ho |
| Electrical Properties | |||
| Electrical Resistivity | 0.000114 ohm-cm | 0.000114 ohm-cm | 24 °C |
| Electrical Resistivity at Elevated Temperature | 0.000123 ohm-cm | 0.000123 ohm-cm | 100°C (212°F) |
| Electrical Resistivity at Elevated Temperature | 0.000124 ohm-cm | 0.000124 ohm-cm | 200°C (390°F) |
| Electrical Resistivity at Elevated Temperature | 0.000125 ohm-cm | 0.000125 ohm-cm | 300°C (570°F) |
| Electrical Resistivity at Elevated Temperature | 0.000126 ohm-cm | 0.000126 ohm-cm | 400°C (750°F) |
| Electrical Resistivity at Elevated Temperature | 0.000127 ohm-cm | 0.000127 ohm-cm | 500°C (930°F) |
| Electrical Resistivity at Elevated Temperature | 0.000128 ohm-cm | 0.000128 ohm-cm | 600°C (1110°F) |
| Thermal Properties | |||
| CTE, linear 20°C | 12.4 µm/m-°C | 6.89 µin/in-°F | 24-93°C (75-200°F) |
| CTE, linear 250°C | 12.4 µm/m-°C | 6.89 µin/in-°F | 24-204°C (75-400°F) |
| CTE, linear 500°C | 12.6 µm/m-°C | 7 µin/in-°F | 24-316°C (75-600°F) |
| CTE, linear 500°C | 13.3 µm/m-°C | 7.39 µin/in-°F | 24-427°C (75-800°F) |
| CTE, linear 500°C | 13.9 µm/m-°C | 7.72 µin/in-°F | 24-538°C (75-1000°F) |
| CTE, linear 1000°C | 14.6 µm/m-°C | 8.11 µin/in-°F | 24-649°C (75-1200°F) |
| CTE, linear 1000°C | 15.3 µm/m-°C | 8.5 µin/in-°F | 24-760°C (75-1400°F) |
| CTE, linear 1000°C | 15.8 µm/m-°C | 8.78 µin/in-°F | 24-871°C (75-1600°F) |
| CTE, linear 1000°C | 16.2 µm/m-°C | 9 µin/in-°F | 24-982°C (75-1800°F) |
| Heat Capacity | 0.414 J/g-°C | 0.0989 BTU/lb-°F | 52°C |
| Heat Capacity at Elevated Temperature | 0.423 J/g-°C | 0.101 BTU/lb-°F | 100°C (212°F) |
| Heat Capacity at Elevated Temperature | 0.444 J/g-°C | 0.106 BTU/lb-°F | 200°C (390°F) |
| Heat Capacity at Elevated Temperature | 0.46 J/g-°C | 0.11 BTU/lb-°F | 300°C (570°F) |
| Heat Capacity at Elevated Temperature | 0.476 J/g-°C | 0.114 BTU/lb-°F | 400°C (750°F) |
| Heat Capacity at Elevated Temperature | 0.489 J/g-°C | 0.117 BTU/lb-°F | 500°C (930°F) |
| Heat Capacity at Elevated Temperature | 0.514 J/g-°C | 0.123 BTU/lb-°F | 600°C (1110°F) |
| Thermal Conductivity | 10.1 W/m-K | 70.1 BTU-in/hr-ft²-°F | 48°C |
| Thermal Conductivity at Elevated Temperature | 11.1 W/m-K | 77 BTU-in/hr-ft²-°F | 100°C (212°F) |
| Thermal Conductivity at Elevated Temperature | 13.4 W/m-K | 93 BTU-in/hr-ft²-°F | 200°C (390°F) |
| Thermal Conductivity at Elevated Temperature | 15.5 W/m-K | 108 BTU-in/hr-ft²-°F | 300°C (570°F) |
| Thermal Conductivity at Elevated Temperature | 17.5 W/m-K | 121 BTU-in/hr-ft²-°F | 400°C (750°F) |
| Thermal Conductivity at Elevated Temperature | 19.5 W/m-K | 135 BTU-in/hr-ft²-°F | 500°C (930°F) |
| Thermal Conductivity at Elevated Temperature | 21.3 W/m-K | 148 BTU-in/hr-ft²-°F | 600°C (1110°F) |
| Melting Point | 1357 – 1399 °C | 2470 – 2550 °F | |
| Solidus | 1357 °C | 2470 °F | |
| Liquidus | 1399 °C | 2550 °F | |
Hastelloy C-4
Do you need custom fasteners created with Hastelloy™ C-4? Since our inception, Vegas Fastener Group has met every challenge of providing Quality, Timely, Cost-effective solutions for specialty fastener applications. Every product is built to your specifications, using your prints if necessary.
Below are the technical specifications of the Hastelloy™ C-4 Bar Stock we have available to meet your needs.
Hastelloy® C-4 alloy, all-weld metal, as welded, GTAW, tested at RT
Subcategory: Metal; Nickel Base; Superalloy Key Words: ASME SB-622, ASME SB-626, UNS N06455, ASME SB-574, ASME SB-575, ASME SB-619, nickel alloy
| Component | Wt. % |
| C | Max 0.01 |
| Co | Max 2 |
| Cr | 14 – 18 |
| Fe | Max 3 |
| Mn | Max 1 |
| Mo | 14 – 17 |
| Ni | 58 |
| P | Max 0.025 |
| S | Max 0.01 |
| Si | Max 0.08 |
| Ti | Max 0.7 |
Material Notes: Nickel content to balance. High temperature stability even after aging in the 650-1040°C (1200-1900°F) range as evidenced by good ductility and corrosion resistance. Resists the formation of grain-boundary precipitates and is therefore suitable for use in most chemical process applications in the as-welded condition. C-4 resists stress-corrosion cracking and oxidizing atmospheres up to 1040°C (1900°F). It has exceptional resistance to hot contaminated mineral acids, solvents, chlorine and chlorine-contaminated media (organic and inorganic), dry chlorine, formic and acetic acids, acetic anhydride, seawater and brine solutions.
Data provided by the manufacturer, Haynes International, Inc.
| Physical Properties | Metric | English | Comments |
| Density | 8.64 g/cc | 0.312 lb/in³ | at RT |
| Mechanical Properties | |||
| Tensile Strength, Ultimate | 738 MPa | 107000 psi | |
| Tensile Strength, Yield | 492 MPa | 71400 psi | at 0.2% offset |
| Elongation at Break | 42 % | 42 % | in 50.8 mm |
| Modulus of Elasticity | 207 GPa | 30000 ksi | 93°C |
| Modulus of Elasticity | 211 GPa | 30600 ksi | RT |
| Modulus of Elasticity at Elevated Temperature | 141 GPa | 20500 ksi | 982°C |
| Modulus of Elasticity at Elevated Temperature | 152 GPa | 22000 ksi | 871°C |
| Modulus of Elasticity at Elevated Temperature | 162 GPa | 23500 ksi | 760°C |
| Modulus of Elasticity at Elevated Temperature | 171 GPa | 24800 ksi | 649°C |
| Modulus of Elasticity at Elevated Temperature | 179 GPa | 26000 ksi | 538°C |
| Modulus of Elasticity at Elevated Temperature | 187 GPa | 27100 ksi | 427°C |
| Modulus of Elasticity at Elevated Temperature | 194 GPa | 28100 ksi | 316°C |
| Modulus of Elasticity at Elevated Temperature | 201 GPa | 29200 ksi | 204°C |
| Electrical Properties | |||
| Electrical Resistivity | 0.000125 ohm-cm | 0.000125 ohm-cm | 23°C |
| Electrical Resistivity at Elevated Temperature | 0.000125 ohm-cm | 0.000125 ohm-cm | 100°C (212°F) |
| Electrical Resistivity at Elevated Temperature | 0.000126 ohm-cm | 0.000126 ohm-cm | 200°C (390°F) |
| Electrical Resistivity at Elevated Temperature | 0.000127 ohm-cm | 0.000127 ohm-cm | 300°C (570°F) |
| Electrical Resistivity at Elevated Temperature | 0.000128 ohm-cm | 0.000128 ohm-cm | 400°C (750°F) |
| Electrical Resistivity at Elevated Temperature | 0.000129 ohm-cm | 0.000129 ohm-cm | 500°C (930°F) |
| Electrical Resistivity at Elevated Temperature | 0.000132 ohm-cm | 0.000132 ohm-cm | 600°C (1110°F) |
| Thermal Properties | |||
| CTE, linear 20°C | 10.8 µm/m-°C | 6 µin/in-°F | |
| CTE, linear 250°C | 11.9 µm/m-°C | 6.61 µin/in-°F | 20-204°C (68-400°F) |
| CTE, linear 500°C | 12.6 µm/m-°C | 7 µin/in-°F | 20-316°C (68-600°F) |
| CTE, linear 500°C | 13.3 µm/m-°C | 7.39 µin/in-°F | 20-427°C (68-800°F) |
| CTE, linear 500°C | 13.3 µm/m-°C | 7.39 µin/in-°F | 20-538°C (68-1000°F) |
| CTE, linear 1000°C | 13.5 µm/m-°C | 7.5 µin/in-°F | 20-649°C (68-1200°F) |
| CTE, linear 1000°C | 14.4 µm/m-°C | 8 µin/in-°F | 20-760°C (68-1400°F) |
| CTE, linear 1000°C | 14.9 µm/m-°C | 8.28 µin/in-°F | 24-871°C (75-1600°F) |
| CTE, linear 1000°C | 15.7 µm/m-°C | 8.72 µin/in-°F | 20-982°C (68-1800°F) |
| Heat Capacity | 0.406 J/g-°C | 0.097 BTU/lb-°F | 0°C (32°F) |
| Heat Capacity at Elevated Temperature | 0.427 J/g-°C | 0.102 BTU/lb-°F | 100°C (212°F) |
| Heat Capacity at Elevated Temperature | 0.448 J/g-°C | 0.107 BTU/lb-°F | 200°C (390°F) |
| Heat Capacity at Elevated Temperature | 0.465 J/g-°C | 0.111 BTU/lb-°F | 300°C (570°F) |
| Heat Capacity at Elevated Temperature | 0.477 J/g-°C | 0.114 BTU/lb-°F | 400°C (750°F) |
| Heat Capacity at Elevated Temperature | 0.49 J/g-°C | 0.117 BTU/lb-°F | 500°C (930°F) |
| Heat Capacity at Elevated Temperature | 0.502 J/g-°C | 0.12 BTU/lb-°F | 600°C (1110°F) |
| Thermal Conductivity | 10.1 W/m-K | 70.1 BTU-in/hr-ft²-°F | 23°C (73°F) |
| Thermal Conductivity at Elevated Temperature | 11.4 W/m-K | 79.1 BTU-in/hr-ft²-°F | 100°C (212°F) |
| Thermal Conductivity at Elevated Temperature | 13.2 W/m-K | 91.6 BTU-in/hr-ft²-°F | 200°C (390°F) |
| Thermal Conductivity at Elevated Temperature | 15 W/m-K | 104 BTU-in/hr-ft²-°F | 300°C (570°F) |
| Thermal Conductivity at Elevated Temperature | 16.7 W/m-K | 116 BTU-in/hr-ft²-°F | 400°C (750°F) |
| Thermal Conductivity at Elevated Temperature | 18.4 W/m-K | 128 BTU-in/hr-ft²-°F | 500°C (930°F) |
| Thermal Conductivity at Elevated Temperature | 20.5 W/m-K | 142 BTU-in/hr-ft²-°F | 600°C (1110°F) |
