Description
The impact strength at 24°C is 220 ft. lbs while at -190°C the strength remains 196 ft. lbs. Hence, no evidence of transition or fracture. The strength, as well as hardness, is retained with very little loss of ductility and impact properties. If creep and rupture properties up to 540°C, are attained under high oxidizing conditions the grade can be useful in several other applications. Monel 400 has better resistance to oxidizing than higher alloys of copper. Hence, the alloy can be suitably serviced under variable environments. The fatigue strength of the hot-rolled specimen of the alloy is obtained at 290 MPa in 10^8 cycles (rotating beam test).
Hence, the alloy can be conveniently used in dynamic applications. The shear strength of the alloy in hot rolled condition remains around 340 MPa. The grade is normally magnetic at room temperature and hence it can be used in relative applications. Its magnetic properties might change after cold working or welding. The annealed alloy has lower strength and needs to be appropriately tempered for better strength. Cold working is used to enhance the hardening of the alloy. The grade is specifically used for its toughness in impact as well as torsion. The hot rolled specimen of the alloy absorbs 120 ft. lbs in the Izod test, and 220 ft. lbs in the Charpy v-notch test.
The alloy is softer than most of the grades, hot forming is very convenient and almost every required shape is obtained. The alloy can be readily formed, fabricated, and machined. With the appropriate amount of hot work and cold work, and required heat treatment, the alloy can successfully deliver the required mechanical properties as per the needed applications. Pickling is often done on the alloy to obtain a clean and better surface.
Chemical Properties
CHEMICAL PROPERTIES
| Grade | Ni | C | Mn | Cu | Si | Fe | S | |
| Monel 400 | Min. | 17.5 | – | – | 28.00 | – | – | – |
| Max. | 18.5 | 0.30 | 2.00 | 34.00 | 0.08 | 2.50 | 0.024 |
Physical Properties
| Density | 8.80 g/cm 3 / 0.318 lb/in 3 |
| Melting Point | 1300 -1350 (°C) / 2370 – 2460 (°F) |
| Specific Heat @ 70°F | 0.102 Btu/lb/°F |
| Thermal Conductivity @ 70°F | 151 Btu•in/h/ft2/°F |
| Elastic Modulus @ 70ºF (tension) | 26.0 x 106 psi |
| Electrical Resistivity @ 70°F | 0.511 μΩ•m |
| Annealed | 900 – 928 (°C) / 1650 – 1700 (°F) |
| Quench | Rapid Air/Water |
| Poisson’s Ratio | 0.32 |
General Data
| Standard | 400 |
| UNS | N04400 |
| WERKSTOFF NR. | 2.4360 |
| EN | NiCu30Fe |
| BS | NA 13 |
| GOST | МНЖМц 28-2,5-1,5 |
| JIS | NW 4400 |
| AFNOR | Nu-30M |
Standards Specifications
PIPES & TUBES
| Summary | Standards |
| Standard Specification for Nickel Seamless Pipe and Tube | ASTM B161 |
| Standard Specification for Seamless Nickel and Nickel Alloy Condenser and Heat-Exchanger Tubes | ASTM B163 |
| Standard Specification for Electric Fusion Welded Nickel and Nickel Alloy Pipe | ASTM B474 |
| Standard Specification for Welded Nickel (UNS N02200/UNS N02201) and Nickel Copper Alloy (UNS N04400) Pipe | ASTM B725 |
| Standard Specification for Welded Nickel (UNS N02200/UNS N02201) and Nickel Copper Alloy (UNS N04400) Tube | ASTM B730 |
FITTINGS & FLANGES
| Summary | Standards |
| Standard Specification for Factory-Made Wrought Nickel and Nickel Alloy Fittings | ASTM B366 |
| Standard Specification for Nickel Alloy Forgings | ASTM B564 |
Forms of Supply
Piping and tubing, fittings and flanges, washers.
Corrosion Resistance
The alloy has brilliant properties in general corrosion resistance to aggressive media in a wide range of temperatures. Its resistance to seawater as well as steam widens its range of applications including marine components, steam power plants, etc. The alloy finds its extensive use in environments that include caustic solutions, alkalis, and non-oxidizing mineral acids.
Chemicals such as hydrofluoric acids, hydrochloric and sulphuric acids can be suitably resisted. However, oxidizing salts should be avoided because it would increase the corrosion rate of the alloy. Great resistance to chloride stress corrosion cracking is also one of its many benefits. However, the solutions need to be de-aerated since aeration would accelerate the corrosion rate of the alloy. Due to the presence of copper, the alloy may be prone to attacks by nitric acid and ammonia. Nitric acid dissolves copper by oxidizing it whilst ammonia in the presence of moisture forms – copper ammonia complex can be unsuitable for the compound.
Heat Treatment
Annealing on the alloy can significantly soften the work-hardened alloy with time at a temperature depending on the previous work done. Open annealing can be done at 870-980°C for about 10 mins while box annealing can be done at 760-820°C for about 2-3 hours. The grain refinement that occurs following the process can be used in further applications.
Weldability
The choice of welding materials needs to be made based on the environment it is exposed. Normal welding techniques like gas tungsten arc welding, shielded metal arc welding, gas metal arc welding, and submerged arc welding can be used. Inconel metals are normally used as filler metals. Neither pre-heat nor post-heat is required. The alloy’s high purity and thermal conductivity make the weld penetration low.
Machining
The alloy can be satisfactorily machined at proper rates by controlling the tool design, speed, and coolants. There might be work hardening during the machining of the alloy. Rigid tooling and powerful machinery can be required in some cases.
Applications
Aerospace applications, Feed water and steam generator tubing, Pickling bat heating coils, Crude oil distillation towers, Chemical plant equipment, Chlorinated solvents, Industrial heat exchangers, Frames for eyeglasses, Marine fixtures, pumps, valves, and piping systems for seawater applications, Brine heaters, sea water scrubbers in tanker inert gas systems, Musical instruments, Transfer piping from oil refinery crude columns, De-aerating heaters, Boiler feed water heaters and other heat exchangers, Chemical and hydrocarbon processing equipment, Sulfuric acid and hydrofluoric acid alkylation plants, Cladding for the upper areas of oil refinery crude columns, Propeller and pump shafts, chlorinated plastics.
Possible grade alternatives
INCONEL 316L
| Grade | Ni | C | Mn | Si | P | Cr | Mo | S | |
| Inconel 316L | Min. | 10.0 | – | – | – | – | 16.0 | 2.0 | – |
| Max. | 14.0 | 0.035 | 2.00 | 1.00 | 0.045 | 18.0 | 3.0 | 0.30 |
