Product Details:
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Material: | Alloy C-22, UNS N06022, A Fully Austenitic Advanced Corrosion-resistant Alloy | ||
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High Light: | high strength special alloys,high temperature alloys,high performance alloy 22 bar |
High performance Alloy 22 (C-22, N06022) bar, pipe, strip, forging, wire for chemical and petrochemical processing
1 PRODUCT
High performance Alloy 22 (alloy C-22, UNS N06022) semi-products for chemical and petrochemical processing
Alloy 22 standard semi-product forms include sheet, strip, plate, round bar, flat bar, forging, hexagon, ring, disc and wire.
2 EQUIVALENT DESIGNATION
Alloy C-22, UNS N06022, W.Nr. 2.4602, NiCr21Mo14W(DIN), NiCr21Mo14W3(ISO), Inconel® alloy 22, VDM® Alloy 22, Nicrofer 5621 hMoW, Hastelloy® C-22®
3 OVERVIEW
Alloy 22 is a fully austenitic advanced corrosion-resistant alloy that offers resistance to both aqueous corrosion and attack at elevated temperatures. This alloy provides exceptional resistance to general corrosion, pitting, crevice corrosion, intergranular attack, and stress corrosion cracking.
4 APPLICATION
Alloy 22 has a broad field of application in the chemicals and petrochemicals industry and is used for components in organic processes that contain chloride and for catalytic systems. The material is especially effective in hot, contami- nated mineral acids, solutions, organic acids (such as formic acid and acetic acid) or sea water.
Other fields of application are:
Acetic acid production
Pharmaceuticals industry
Fine chemicals
5 CHEMICAL COMPOSITION (wt%):
Table 1 (wt%) as per ASTM B575
Fe | Ni | Co | Cr | Mo | W |
2.0-6.0 | Balance | ≤2.5 | 20.0-22.5 | 12.5-14.5 | 2.5-3.5 |
C | Mn | Si | P | S | V |
≤0.015 | ≤0.50 | ≤0.08 | ≤0.020 | ≤0.020 | ≤0.35 |
*Reference to the ‘balance’ of a composition does not guarantee this is exclusively of the element mentioned but that it predominates and others are present only in minimal quantities.
Table 2 Typical compositions of the Ni-Cr-Mo-W corrosion resistant alloys
This table compares the combined alloying content (Cr+Mo+W+Nb) of Alloy 22 with other similarly alloyed materials.
Alloy | UNS no. | Wr.No | Fe | Ni | Cr | Mo | W or Nb | PREN* |
686 | N06686 | 2.4606 | 1 | 57 | 20.5 | 16.3 | 3.9 | 50.8 |
22 | N06022 | 2.4602 | 2.5 | 59 | 21.5 | 14.1 | 3.1 | 47.3 |
C-276 | N10276 | 2.4819 | 6 | 57 | 15.5 | 16 | 3.9 | 45.4 |
625 | N06625 | 2.4856 | 3 | 62 | 22 | 9 | 3.6Nb | 40.8 |
C-4 | N06455 | 2.4611 | 2 | 66 | 16 | 16 | - | 40 |
6 PHYSICAL PROPERTIES
Density at 20°C: 0.311 lb/in3 (8.61g/cm3)
Melting range: 1351-1387°C (2464-2529°F)
Specific Heat: 0.091Btu/lb•°F (381J/kg•°C)
Permeability at 200 oersted (15.9 kA/m): ≤1.001
Electrical Resistivity: 730.7 ohm•circ mil/ft, 1.215 microhm•m
Young’s Modulus (Dynamic) 30.3x103 ksi. (209 GPa)
Coefficient of Expansion 70-200°F,6.90 x 106 in/in•°F (21-193°C, 12.42 m/m•°C)
7 MECHANICAL PROPERTIES
The following minimum values at room and increased temperatures apply to the solution-annealed condition for longitudinal and traverse test samples of the specified dimensions. The properties for larger dimensions must be agreed upon separately.
Table 3 Mechanical properties at room and elevated temperatures. Minimum values according to VdTÜV Sheet 479
Temperature | Yield strength Rp 0.2 | Yield strength Rp 1,0 | Tensile strength Rm | Elongation A | ||||
°C | °F | MPa | ksi | MPa | ksi | MPa | ksi | % |
20 | 68 | 310 | 45 | 335 | 48.6 | 690-950 | 100-138 | 45 |
100 | 212 | 270 | 39.2 | 290 | 42.1 | |||
200 | 392 | 225 | 32.6 | 245 | 35.5 | |||
300 | 300 | 195 | 28.3 | 215 | 31.2 | |||
400 | 752 | 175 | 25.4 | 195 | 28.3 |
Table 4 Mechanical properties at room temperature. Minimum values according to VdTÜV Sheet 479
Product form | Dimension | Yield strength Rp 0,2 | Yield strength Rp 1,0 | Tensile strength Rm | Elongation A | ||||
mm | in | MPa | ksi | MPa | ksi | MPa | ksi | % | |
Plate | ≤ 3 | 0.118 | ≥ 310 | 45 | ≥ 335 | 48.6 | ≥ 690 | 100 | ≥ 45 |
Coil | ≤ 3 | 0.118 | ≥ 310 | 45 | ≥ 335 | 48.6 | ≥ 690 | 100 | ≥ 45 |
Plate | 3-50 | 0.118-1.97 | ≥ 310 | 45 | ≥ 335 | 48.6 | ≥ 690 | 100 | ≥ 45 |
Bar | 10-90 | 0.394-3.54 | ≥ 310 | 45 | ≥ 335 | 48.6 | ≥ 690 | 100 | ≥ 45 |
ISO V-notch impact energy KV
Minimum value | Minimum value |
20°C (68°F) | -196°C (-321°F) |
120 J (88.5 ft·lbs) | 96 J (22.9 ft·lbs) |
1)Average value of 3 samples. Only one value may fall below the minimum average value, and by no more than 30%. The values also apply for the heat affected zones in welded joints.
2)These values only apply for normal samples according to DIN EN ISO 148-1. For undersized samples according to DIN EN ISO 148-1, the minimum values indicated for the notch impact toughness must be reduced in a manner that is linear to the sample cross-section in the gap. For undersized samples <5mm according to DIN EN ISO 148-1, the values for the individual case must be coordinated with the manufacturer separately.
8 CORROSION RESISTANCE
Due to the extremely low carbon and silicon concentrations, Alloy 22 has no propensity for grain boundary disper- sions in hot forming or welding. This alloy can therefore be used in many chemical processes with both oxidizing and reducing media when welded. The high chrome, molybdenum, and nickel concentrations make the alloy resistant to chlo- ride ion attacks. The tungsten concentration further increases this resistance. Alloy 22 is resistant to chlorine gas, hypochlorite, and chlorine dioxide solutions such as those that can be encountered in the cellulose industry. The alloy is characterized by excellent resistance to concentrated solutions of oxidizing salts (such as iron III and copper chloride)
9 MICROSTRUCTURE
Alloy 22 has a cubic, face-centered crystal structure.
10 WORKING INSTRUCTION
Alloy 22 is readily fabricated by standard procedures for nickel alloys. It can be easily formed both hot and cold and can also be machined.
Heating
The material can be hot-formed in a temperature range between 1100 and 900°C (2012°F-1652°F) with subsequent rapid cooling down in water or air. Heat treatment after hot forming is recommended in order to achieve optimal properties. For heating up, workpieces should be placed in a furnace that is already heated up to the target value.
Cold forming
Alloy 22 has higher work hardening rate than other austenitic stainless steels. This should be taken into account when selecting forming equipment. The workpiece should be in the solution-annealed condition. Intermediate annealing is necessary for major cold forming work. For cold forming above 15%, new solution annealing must be conducted.
Heat treatment
Solution annealing should take place at temperatures between 1105 and 1135°C (2021-2075°F).
Cooling down should be accelerated with water to achieve optimum corrosion properties. Fast air cooling can also be carried out at thicknesses of less than approx. 1.5 mm.
Machining
Alloy 22 should be machined in the solution-annealed condition. Because of the considerably elevated tendency toward work hardening in comparison with low-alloy austenitic stainless steels, a low cutting speed and a feed level that is not too high should be selected and the cutting tool should be engaged at all times. An adequate chip depth is important in order to cut below the previously formed strain-hardened zone. An optimal heat dissipation by using large quantities of suitable, preferably aqueous, cold forming lubricants has considerable influence on a stable machining process.
11 STANDARD SPECIFICATION
Alloy 22 is approved for construction of pressure vessels and components under the ASME Boiler and Pressure Vessel Code Section VIII, Division 1 for service up to 1250°F (677°C). The alloy is also approved by VdTÜV under Werkstoffblatt 479.
Rod, Bar, Wire and Forging Stock
ASTM B462 Rod, Bar and Forging Stock
ASTM B564 / ASME SB564 Forgings
ASTM B574 / ASME SB574 Rod, Bar and Wire
ASME Code Case 2226
ASME Code Case N-621
ISO 9723
ISO 9724
ISO 18274 Wire
DIN 17752 Rod & Bar,
DIN 17753 Wire
DIN 17754 Forgings
NACE MR 0103/ISO 17945
NACE MR 0175/ISO 15156
VdTÜV 479
Plate, Sheet
ASTM B575 / ASME SB575
ASTM B906 / ASME SB906
ASME Code Case 2226
ASME Code Case N-621
ISO 6208
ISO 9722
DIN 17750
NACE MR 0103/ISO 17945
NACE MR 0175/ISO 15156
VdTÜV 479
Strip
ASTM B575 / ASME SB575
ISO 6208
ISO 18274
NACE MR0175/ISO 15156
Pipe and Tube
ASTM B619 / ASME SB619
ASTM B775 / ASME SB775 Welded Pipe
ASTM B622 / ASME SB622
ASTM B829 / ASME SB829 Seamless tube
ASTM B626 / ASME SB626
ASTM B751 / ASME SB751 Welded Tube
ASME Code Case 2226
ASME Code Case N-621
ISO 6207
DIN 17751
Welding Products
INCONEL Filler Metal 622
AWS A5.14
ERNiCrMo-10
INCONEL Welding Electrode 622
AWS A5.11
ENiCrMo-10
Other Product Forms
ASTM B366 / ASME SB366 Fittings
DIN 17744 Composition
12 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) Patented technologies.
(4) Ultra-purity smelting process: VIM + IG-ESR + VAR
(5) Excellent high performance.
13 BUSINESS TERM
Minimum Order Quantity | Negotiable |
Price | Negotiable |
Packaging Details | water prevent, seaworthy transport, mill’s standard export packing |
Mark | As per order |
Delivery Time | 60-90 days |
Payment Terms | T/T, L/C at sight, D/P |
Supply Ability | 300 metric tons / Month |
Contact Person: Mr. lian
Tel: 86-13913685671
Fax: 86-510-86181887