Corrosion resistant alloy 31 rod, bar, forging, pipe, plate for
petrochemical processing
1 PRODUCT
Corrosion resistant alloy 31 rods, bars, forgings, pipes, plate,
wire, sheet, strip etc.
2 EQUIVALENT DESIGNATION
UNS N08031, W.Nr. 1.4562, X1NiCrMoCu32-28-7(DIN), VDM® Alloy 31, Nicrofer® 3127 hMo
3 PRODUCT FORM
Sheet
Delivery condition: Hot- or cold-rolled, heat-treated, de-scaled or
pickled
Strip
Delivery condition: Cold-rolled, heat-treated, pickled or bright
annealed
Rod
Delivery condition: Forged, rolled, drawn, heat-treated, oxidized,
de-scaled or pickled, twisted, peeled, ground or pol- ished
Wire
Delivery condition: Drawn bright, ¼ hard to hard, bright annealed
in rings, containers, on spools and headstocks
4 APPLICATIONS
Alloy 31 has proven itself to be suitable particularly in the
chemical and petrochemical industries, in ore digestion plants, in
environmental and marine engineering as well as in oil and gas
extraction.
The material is included in the list of the German Federal
Institute for Materials Research and Testing (BAM) for transport
and storage containers for hazardous goods.
Typical application for Alloy 31 are:
Components for flue gas desulfurization plants
Plants for the production of phosphoric acid via the wet digestion
process
Pipes and heat exchangers for sulfuric acids contaminated with
chlorides
Pipes containing ocean water and brackish water, condensers and
chillers
Pickling plants for sulfuric acid as well as nitric-hydrofluoric
acid
Treatment of sulfuric acids from waste
Evaporation and crystallization of salts
Components for the cellulose and paper industry
Digestion of ores, e.g. in HIPAL (high-pressure acid leach) plants
for the digestion of laterite ores
Mineral oil production and refineries
Organic acids and ester synthesis
Fine chemicals
Strain-hardened transport and feed pipes as well as slicklines,
wirelines and flowlines in the transport of oil and gas
5 OVERVIEW
Alloy 31 is an iron-nickel-chromium-molybdenum alloy with the
addition of nitrogen. The alloy closes the gap between high alloyed
austenitic special stainless steels and nickel alloys.
Alloy 31 is characterized by:
Outstanding corrosion resistance in alkaline and acidic
halide-containing media
Excellent resistance to sulfuric acid, even in highly concentrated
form
Excellent resistance to corrosion and erosion in phosphoric acid
media
Outstanding resistance to surface corrosion and local corrosion in
chlorine dioxide bleaching plants in paper production
Excellent resistance in reducing and oxidizing media as well as in
boiling azeotropic nitric acid
Good workability and weldability
VdTÜV-certification for pressure vessels with operating
temperatures from -196 to 550 °C (-320.8 to 1,022 °F)
Certification according to ISO 15156/NACE MR 0175 up to level VI
for acid gas applications in the oil and gas industry
ASME approval for pressure vessels up to 800 °F (427 °C)
6 CHEMICAL COMPOSITION (wt%):
| Fe | Ni | Cr | Cu | Mo | N |
| Balance | 30.00-32.00 | 26.00-28.00 | 1.00-1.40 | 6.00-7.00 | 0.15-0.25 |
| C | Mn | Si | P | S | |
| ≤0.015 | ≤2.00 | ≤0.30 | ≤0.020 | ≤0.010 | |
7 PHYSICAL PROPERTIES
Density: 8.05 g/cm3 (0.29 lb/in3) at 20°C (68°F)
Melting range: 1330-1370°C (2426-2498°F)
Relative magnetic permeability at 20 °C (68 °F): 1.001
8 MECHANICAL PROPERTIES
Mechanical properties at room temperature according to ASTM B625
(plate, sheet and strip), B649 (bar and wire)
| Product | Dimension | Yield strength Rp 0.2 | Yield strength Rp 1.0 | Tensile strength Rm | Elongation |
| mm | in | MPa | ksi | MPa | ksi | MPa | ksi | A% |
| Sheet, plate | ≤ 50 | ≤ 1.97 | ≥ 280 | ≥ 40.6 | ≥ 310 | ≥ 45.0 | ≥ 650 | ≥ 94.3 | ≥ 40 |
| Strip | ≤ 3 | ≤ 0.12 |
| Rod, bar | ≤ 300 | ≤ 11.81 |
| Wire | ≤ 12 | ≤ 0.47 |
ISO V-notch impact toughness
Average value, room temperature: ≥185J/cm2
Average value, -196°C (-320.8°F): ≥ 140J/cm2
Minimum impact values at room temperature for sheet products
according to VdTÜV material data sheet 509.
9 MICROSTRUCTURE
Alloy 31 has a face-centered cubic lattice. The 0.2% nitrogen
content stabilizes the austenite and reduces the precipitation rate
of intermetallic sigma phases.
10 CORROSION RESISTANCE
Optimal corrosion resistance is only ensured if the material is
used in a solution annealed, clean and metallic bright condition.
The chemical composition of Alloy 31 is designed to enable the
achievement of a high corrosion resistance in halide containing
media. At the same time, the material has excellent resistance in
pure and contaminated sulfuric acid over a broad range of
concentrations and temperatures up to 80°C (176°F). Figure 1 shows
the ISO corrosion diagram of Alloy 31 in lightly aerated sulfuric
acid of technical purity, determined in immersion tests of at least
120 hours.
Figure 1 ISO corrosion diagram of Alloy 31 in weakly aerated
sulfuric acid of technical purity, determined in immersion tests of
at least 120 hours.
Under heavy stress from erosion corrosion in the wet digestion
process in the production of phosphoric acid, Alloy 31 has proven
to be a true alternative to nickel alloys. Tests in chlorine
dioxide bleaching plants in the pulp and paper industry have shown
that Alloy 31 withstands the harshest operating conditions.
11 HEAT TREATMENT
Solution annealing should take place at temperatures between 1150
and 1180°C (2102 and 2156 °F). The retention time during annealing
depends on the semi-finished product thickness and can be
calculated as follows:
For thickness d <= 10 mm (0.39 in), the retention time is t = d
* 3 min/mm
For thickness d = 10 to 20 mm (0.39-0.79 in), the retention time is
t = 30 min + (d – 10 mm) * 2 min/mm
For thickness d > 20 mm (0.79 in), the retention time is t = 50
min + (d – 20 mm) * 1 min/mm
The retention time commences with material temperature
equalization; longer times are generally considerably less critical
than retention times that are too short.
12 WORKING INSTRUCTION
Hot forming
Alloy 31 should be hot-formed in a temperature range of 1200 to
1050°C (2192 to 1922°F) with subsequent rapid cooling in water or
in air. For heating up, workpieces should be placed in a furnace
that has been heated up to the maximum hot-forming temperature
(solution annealing temperature). Once the furnace has reached its
temperature again, the workpieces should remain in the furnace for
around 60 minutes per 100 mm (3.94 in) of thickness. After this,
they should be removed from the furnace immediately and formed
within the temperature range stated above, with reheating necessary
once the temperature reaches 1050°C (1922°F). Heat treatment after
hot forming is recommended in order to achieve optimal properties.
Cold forming
The workpieces should be in the annealed condition for cold
forming. Alloy 31 has a significantly higher work hardening rate
than other widely used austenitic stainless steels. This must be
taken into account during the design and selection of forming tools
and equipment and during the planning of forming processes.
Intermediate annealing is necessary for major cold forming work.
For cold forming of > 15%, a final solution annealing must be
conducted.
Machining
Alloy 31 should be machined in the heat-treated 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 depth of cut is important in order to cut below the
previously formed strain-hardened zone. Optimum heat dissipation
through the use of large quantities of suitable, preferably
aqueous, lubricants has considerable influence on a stable
machining process.
13 STANDARD SPECIFICATION
| Product form | VdTÜV | ASTM | ASME | SEW | Others |
| Sheet, plate | 509 | B 625 | SB 625 | 400 | |
| Strip | 509 | B 625 | SB 625 | 400 | API 5LD |
| Rod, bar | 509 | B 581 B 649 | SB 581 SB 649 | 400 | |
| Wire | | B 649 B 564 | SB 649 | 400 | |
| Seamless pipe | 509 | B 622 | SB 622 | 400 | |
| Welded pipe | 509 | B 619 B 626 | SB 619 SB 626 | 400 | |
| Forging | 509 | B 564 | SB 564 | 400 | |
14 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) Excellent performance.
15 BUSINESS TERM
| Minimum Order Quantity | Negotiable |
| 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 / Month |
