Hastelloy C4 Alloy ASTM B619 B622 B626 N06455 N06455 Alloy Seamless Tubing
Hastelloy C4 Alloy ASTM B619 B622 B626 N06455 alloy is a nickel-chromium-molybdenum alloy with outstanding high-temperature stability as evidenced by high ductility and corrosion resistance even after aging in the 1200 to 1900°F (649 to 1038°C) range. This alloy resists the formation of grain-boundary precipitates in the weld heat-affected zone, thus making it suitable for most chemical process applications in the as welded condition. C-4 alloy also has excellent resistance to stress-corrosion cracking and to oxidizing atmospheres up to 1900°F (1038°C).
Hastelloy C4 Alloy ASTM B619 B622 B626 N06455 alloy has exceptional resistance to wide variety of chemical process environments. These include hot contaminated mineral acids, solvents, chlorine nd chlorine contaminated media (organic and inorganic), dry chlorine, formic acid and acetic acid, acetic anhydride, and seawater and brine solutions.
Hastelloy C4 Alloy ASTM B619 B622 B626 N06455 N06455 alloy can be forged, hot-upset, and impact extruded. Although the alloy tends to work-harden, it can be successfully deep-drawn, spun, press formed or punched. All of the common methods of welding can be used to weld Hastelloy C4 Alloy ASTM B619 B622 B626 N06455 N06455 alloy, although the oxy-acetylene and submerged arc processes are not recommended when the fabricated item is intended for use in corrosion service. Special precautions should be taken to avoid excessive heat input.
Hastelloy C4 Alloy ASTM B619 B622 B626 N06645 Alloy Chemical compostion:
ASTM B622 N06645 Hastelloy C4 Alloy Chemical Composition:
| Ni | Mo | Fe | C | Co | Cr | Mn | Si | Ti | W | Al | Cu | V | P | S | Zr | Nb | Ta |
| Rem. | 14.0- 17.0 | 3.0 max | 0.015 max | 2.0 max | 14.0- 18.0 | 1.0 max | 0.08 max | 0.70 max | 1.0 max | 0.04 max | 0.03 max |
DIN 17744 2002 2.4610 NiMo16Cr16Ti Hastelloy C4 Alloy Chemical Composition:
| Ni | Mo | Fe | C | Co | Cr | Mn | Si | Ti | W | Al | Cu | V | P | S | Zr | Nb | Ta |
| Rem. | 14.0- 17.0 | 3.0 max | 0.015 max | 2.0 max | 14.0- 18.0 | 1.0 max | 0.08 max | 0.70 max | 0.50 max | 0.025 max | 0.015 max |
Hastelloy C4 ASTM B619 B622 B626 N06645 Alloy Mechanical Properties:
DIN 17751 2002 2.4610 NiMo16Cr16Ti Hastelloy C4 Alloy Mechanical Properties
| Material Grade | Matrial Number | Tensile Strength Rm N/mm²(MPa) min | Yield Strength Rp0.2% N/mm²(MPa) min | Yield Strength Rp 1.0% N/mm²(MPa) min | Elongation (%) | Brinell Hardness HBW 2.5/62.5 | |
| max | Approximately | ||||||
| Hastelloy C4 | 2.4610 | 690 | 275 | 295 | 40 | 240 | – |
ASTM B622 N06645 Hastelloy C4 Alloy Mechanical Properties
| Material Grade | Matrial Number | Tensile Strength Rm N/mm² ksi(MPa) min | Yield Strength Rp0.2% N/mm²(MPa) min | Elongation (%) |
| Hastelloy B2 | N10665 | 100 (690) | 40 (276) | 40 |
| Pipe Smls | Welded Pipe | Tube Smls | Welded Tube | Sheet/Plate | Bar | Forging | Fitting |
| B622 | B619 | B622 | B626 | B333 | B335 | B564 | B366 |
Hastelloy C4 Alloy DIN 17751 2.4610 ASTM B619 B622 B626 N06645 Specification:
| Standards | Desciption |
| ASTM B574 | Standard Specification for Low-Carbon Nickel-Chromium-Molybdenum, Low-Carbon Nickel-Molybdenum-Chromium, Low-Carbon Nickel-Molybdenum-Chromium-Tantalum, Low-Carbon Nickel-Chromium-Molybdenum-Copper, and Low-Carbon Nickel-Chromium-Molybdenum-Tungsten Alloy Rod |
| ASTM B575 | Standard Specification for Low-Carbon Nickel-Chromium-Molybdenum, Low-Carbon Nickel-Chromium-Molybdenum-Copper, Low-Carbon Nickel-Chromium-Molybdenum-Tantalum, Low-Carbon Nickel-Chromium-Molybdenum-Tungsten, and Low-Carbon Nickel-Molybdenum-Chromium Alloy Plate, Sheet, and Strip |
| ASTM B366 | Standard Specification for Factory-Made Wrought Nickel and Nickel Alloy Fittings |
| ASTM B564 | Standard Specification for Nickel Alloy Forgings |
| ASTM B619 | Standard Specification for Welded Nickel and Nickel-Cobalt Alloy Pipe |
| ASTM B622 | Standard Specification for Seamless Nickel and Nickel-Cobalt Alloy Pipe and Tube |
| ASTM B626 | Standard Specification for Welded Nickel and Nickel-Cobalt Alloy Tube |
| ASTM B704 | Standard Specification for Welded Alloy Tubes |
| ASTM B705 | Standard Specification for Nickel-Alloy Welded Pipe |
| DIN 17744 (2002/09) | nickel-forgeable alloy with molybdenum and chrome |
| DIN 17750 (2002/09) | ribbons and sheet metal out of nickel with nickel-wrought alloy properties |
| DIN 17751 (2002/09) | tubes out of nickel with nickel-wrought alloy properties |
| DIN 17752 (2002/09) | rod made from nickel with nickel-wrought alloy properties |
| DIN 17753 (2002/09) | wire out of nickel with nickel-wrought alloy properties |
| VdTÜV / Werkstoffblatt 432/1 | extremely corrosion resistant nickel based alloy, niCr21Mo, material-nr. 2.4858 ribbon, sheet metal |
| VdTÜV / Werkstoffblatt 432/2 | 432/2 extremely corrosion resistant nickel based alloy, NiCr 21 Mo, material-nr. 2.4858 seamless pipe |
| VdTÜV / Werkstoffblatt 432/3 | extremely corrosion resistant nickel based alloy, NiCr 21 Mo, material-nr. 2.3858 rod steel, forging |
Hastelloy C4 Alloy ASTM B619 B622 B626 N06455 N06455 Physical properties:
| Density | 8.64 kg/dm³ |
| Melting point | 1350-1400 °C |
Hastelloy C4 Alloy ASTM B619 B622 B626 N06455 N06455 Applications
This alloy is used to manufacture chemical process equipment, especially for process use at high temperatures where stainless steel do not have adequate strength and/or corrosion resistance.
Hastelloy C4 Alloy Machinability
Machinable by conventional techniques.
Hastelloy C4 Alloy Forming
Readily formed by conventional methods.
Hastelloy C4 Alloy Welding
All of the common methods of welding apply to this alloy. However excessive heat input should be avoided and submerged arc or oxy-acetylene welding should not be used as they can degrade corrosion resistance.
Hastelloy C4 Alloy Heat Treatment
Solution annealed at 1950 F and rapid quench. This is the normal condition in which product forms are supplied.
Hastelloy C4 Alloy Forging
The alloy can be hot forged at temperatures of 2150 F to 1750 F.
Hastelloy C4 Alloy Hot Working
Can be hot worked or hot extruded similar to stainless steels.
Hastelloy C4 Alloy Cold Working
Readily cold worked by conventional means.
Hastelloy C4 Alloy Annealing
Solution anneal at 1950 F followed by rapid quench.
Hastelloy C4 Alloy Aging
May be aged (after solution heat treatment) at 1200 F for 10 hours to somewhat improve ductility and yield strength without adversely affecting the ultimate tensile strength.
Hastelloy C4 Alloy Hardening
Hardened by cold working only, but normally used in the solution annealed condition .