Alloy 400 (N04400) forging, plate, bar, tube for heat exchanger,
steam generator, pump shaft etc
PRODUCT
Corrosion resistant alloy 400 (UNS N04400) forging, plate, bar and
tube for heat exchanger, steam generator, pump shaft, gasoline
tank, valve etc.
EQUIVALENT DESIGNATION
UNS N04400, MONEL® 400, VDM® alloy 400, NiCu30Fe(EN), NiCu30(ISO),
W.Nr. 2.4360,W.Nr. 2.4361, NU 30(AFNOR), NA 13(BS)
CHEMICAL COMPOSITION
| Fe | Ni | Cu | Al |
| ≤2.50 | ≥63.0 | 28.0-34.0 | ≤0.50 |
| C | Mn | Si | S |
| ≤0.30 | ≤2.00 | ≤0.50 | ≤0.024 |
PRODUCT FORMS
Alloy 400 is furnished in a wide range of standard mill forms
including pipe, tube, sheet, strip, plate, round bar, flat bar,
forging, hexagon, shaped section and wire, etc.
OVERVIEW
Alloy 400 is a single-phase, solid solution, nickel-copper alloy
that can be hardened only by cold working. It has high strength and
toughness over a wide temperature range and excellent resistance to
many corrosive environments.
Alloy 400 is characterized by:
Resistance against chloride-induced stress corrosion
Excellent strength even at low application temperatures
Easy processing compared to other high-alloy materials
Approved for pressure vessels from -10 to 425°C (14 to 797°F)
pursuant to VdTÜV Material Sheet 263 and up to 480°C (896°F) in
accordance with ASME Boiler and Pressure Vessel Code.
APPLICATION
Alloy 400 is widely used in many fields, especially marine and
chemical processing. Typical applications are valves and pumps;
pump and propeller shafts; marine fixtures and fasteners;
electrical and electronic components; springs; chemical processing
equipment; gasoline and fresh water tanks; crude petroleum stills,
process vessels and piping; boiler feedwater heaters and other heat
exchangers; and deaerating heaters.
PHYSICAL PROPERTIES
Density:8.80 g/cm3
Melting point:1300-1350℃
MECHANICAL PROPERTIES
Mechanical properties at room temperature and increased temperature
according to VdTÜV Material Sheet 263
| Temperature | Yield strength Rp0.2 | Tensile strength Rm |
| °C | °F | MPa | ksi | MPa | ksi |
| 20 | 68 | 175 | 25.4 | 450 | 65.3 |
| 100 | 212 | 150 | 21.8 | 420 | 60.9 |
| 200 | 392 | 135 | 19.6 | | 56.6 |
| 300 | 572 | 130 | 18.9 | | 55.1 |
| 400 | 762 | 130 | 18.9 | 370 | 53.7 |
| 425 | 797 | 130 | 18.9 | 370 | 53.7 |
Nominal room temperature tensile properties of Alloy 400a
| Form | Condition | Tensile Strength | Yield Strength (0.2% Offset) | Elongation | Hardness |
| ksi | MPa | ksi | MPa | % | Brinell(3000kg) | Rockwell B |
| Rod, bar | Annealed | 75-90 | 517-620 | 25-50 | 172-345 | 60-35 | 110-149 | 60-80 |
| Hot-Finished (except Hexagons over 2 1/8 inches and Angles) | 80-110 | 552-758 | 40-100 | 276-690 | 60-30 | 140-241 | 75-100 |
Hot-Finished Hexagons over 2 1/8 inches and Angles | 75-100 | 517-690 | 30-55 | 207-379 | 50-30 | 130-184 | 72-90 |
| Cold-Drawn, Stress-Relieved | 84-120 | 579-827 | 55-100 | 379-690 | 40-22 | 160-225 | 85-20C |
| Plate | Hot-Rolled, As-Rolled | 75-95 | 517-655 | 40-75 | 276-517 | 45-30 | 125-215 | 70-96 |
| Hot-Rolled, Annealed | 70-85 | 482-586 | 28-50 | 193-345 | 50-35 | 110-140 | 60-76 |
| Sheet | Annealed | 70-85 | 482-586 | 30-45 | 207-310 | 45-35 | - | 65-80 |
| Cold-Rolled, Hard | 100-120 | 690-827 | 90-110 | 621-758 | 15-2 | - | 93 min.a |
| Cold rolled strip | Annealed | 70-85 | 482-586 | 25-45 | 172-310 | 55-35 | - | 68 max.a |
| Spring Temper | 100-140 | 690-965 | 90-130 | 621-896 | 15-2 | - | 98 min.a |
| Seamless tube and pipe | Cold-Drawn, Annealed | 70-85 | 482-586 | 25-45 | 172-310 | 50-35 | - | 75 max.a |
| Cold-Drawn, Stress-Relieved | 85-120 | 586-827 | 55-100 | 379-690 | 35-15 | - | 85-100a |
| Heat-Exchanger, Annealed | 70-85 | 482-586 | 28-45 | 193-310 | 50-35 | - | 75 max.a |
| Heat-Exchanger, Stress-Relieved | 85-105 | 586-724 | 55-90 | 379-621 | 35-15 | - | 85-97a |
| Hot-Extruded | -b | -b | -b | -b | -b | - | -b |
| No. 1 Temper (Annealed) | 85 max. | 586 max. | 30-45 | 207-310 | 45-30 | - | 73 max.a |
| No. 2 Temper (Half-Hard) | 85-105 | 586-724 | 55-80 | 379-552 | 30-10 | - | 75-97a |
| No. 3 Temper (Full-Hard) | 110-130 | 758-896 | 90-110 | 621-758 | 10-3 | - | 95-27C |
| Cold drawn wirec | Annealed | 70-95 | 482-655 | 30-55 | 207-379 | 45-25 | - | - |
| No. 1 Temper | 85-100 | 586-690 | 50-75 | 345-517 | 30-20 | - | - |
| Quarter-Hard | 95-120 | 655-827 | 65-95 | 448-655 | 25-15 | - | - |
| Half-Hard | 110-135 | 758-931 | 85-120 | 586-827 | 15-8 | - | - |
| Three-Quarter-Hard | 125-150 | 862-1034 | 100-135 | 690-931 | 8-5 | - | - |
| Full-Hard--Spring Temper | 145-180 | 1000-1241 | 125-170 | 862-1172 | 5-2 | - | - |
a The ranges shown are composites for various product sizes and
therefore are not suitable for specification purposes. Hardness
values are suitable for specification purposes providing tensile
properties are not also specified.
b Properties on request.
c Properties shown are for sizes from 0.032 to 0.250-in. diameter.
Properties for other sizes may vary from these.
CORROSION RESISTANCE
Alloy 400 has excellent resistance to neutral and alkaline salts
and has long been the standard material for salt production
systems. Alloy 400 is one of the few materials which can be used in
contact with fluorine, hydrofluoric acid and hydrogen fluoride or
their compounds. The material has a very high resistance to
alkaline media. Its behavior in seawater is also excellent compared
to copper-based alloys with an increased resistance to cavitation.
Alloy 400 can be used in contact with highly diluted mineral acids,
such as sulfuric and hydrochloric acid, provided that they are not
ventilated.
Since the alloy does not contain chromium, the corrosion rates can
increase significantly under oxidizing conditions. While Alloy 400
is resistant to stress corrosion cracking, it can display stress
cracks in the presence of mercury or in moist, aerated HF vapors.
Stress relief annealing is necessary in these conditions.
HOT FORMING
With respect to its resistance to hot deformation, alloy 400 is
softer than many steels. It can, therefore, be hot-formed into
almost any shape.
Alloy 400 can be hot formed in the temperature range of 800 to
1200°C (1472 to 2192°F), but only slight deformations should occur
at 925 °C (1,697 °F). Hot bending is performed from 1200 to 1025°C
(2192 to 1877°F). For preheating, the workpieces may be placed in
the furnace which has already been preheated to the maximum hot
forming temperature.
COLD FORMING
Alloy 400 is adaptable to virtually all methods of cold
fabrication. It has a slightly higher work-hardening than does
carbon steel. This must be taken into account during design and
selection of forming tools and equipment and during the planning of
forming processes. Intermediate annealing is necessary during cold
working. The strength of Alloy 400 can be increased by hardening,
though. Stress relief annealing is recommended in such cases,
though, especially when used in media that can cause stress
corrosion cracking in nickel-copper alloys, such as mercury and its
compounds or fluorosilicic acid.
The forces required and the rate of work hardening are intermediate
between those of mild steel and type 304 stainless steel (see
figure below, effect of cold work on hardness).
STANDARD SPECIFICATION
Alloy 400 is listed in NACE MR0175 for oil-gas service.
Alloy 400 is approved as a material of construction by the ASME
Boiler and Pressure Vessel Code. Allowable stresses for Section III
construction up to 800°F, Section VIII Division 1 construction up
to 900°F and Section VIII Division 2 construction up to 800°F are
contained in Tables 1B and 2B of ASME Section II, Part D.
BS3072 NA13 Sheet and Plate
BS3073 NA13 Strip
BS 3074 NA13 Seamless Pipe and Tube
BS3075 NA13 Wire
BS3076 NA13 Rod and Bar
ASTM B127 / ASME SB127 Plate, Sheet, and Strip
ASTM B163 / ASME SB163 Condenser and Heat Exchanger Tube
ASTM B164 / ASME SB164 Rod, Bar, and Wire
ASTM B165 / ASME SB165 Seamless Pipe and Tube
ASTM B564 / ASME SB564 Forgings
SAE AMS 4544 Sheet, Strip, and Plate
SAE AMS 4675 Bars and Forgings
SAE AMS 4730 Wire
SAE AMS 4731 Wire and Ribbon
VdTÜV 263 Sheet, Plate, Bar, and Tubing
MR 0175 / ISO 15156 Plate, Sheet, Strip
API 5LD Strip
COMPETITIVE ADVANTAGE:
(1)More than 50 years experience of research and develop in high
temperature alloy, corrosion resistance alloy, precision alloy,
refractory alloy, rare metal and precious metal material and
products.
(2) 6 state key laboratories and calibration center.
(3) Hundreds of patent technologies.
(4) Ultra-purity smelting process VIM + IG-ESR + VAR.
(5) High performance material.
BUSINESS TERM
| Minimum Order Quantity | 500 kilogram |
| Price | Negotiable |
| Packaging Details | Water prevent, seaworthy transport, non-fumigation wooden box |
| Mark | As per order |
| Delivery Time | 60-90 days |
| Payment Terms | T/T, L/C at sight, D/P |
| Supply Ability | 100 metric tons per month |
