UNS 32750 Dupex Stainless Steel Seamless Pipes & Tubes Grades
Type 304 | Type 304L | Type 304H | Type 316 | Type 316L | Type 316H | Type 317L | Type 321 | Type 347 | Type 410 | Type 904L | UNS 32750 Duplex
UNS 32750 Dupex Stainless Steel Seamless Pipes & Tubes
ASTM A/ASME SA213/A249/A269/A312/A358 CL. I to V ASTM A789/A790 TP 304L Stainless Steel Pipes and Tubes Stainless Steel Pipes and Tubes
Super Duplex Stainless Steel is a highly alloyed, good performance Duplex steel with a pitting resistance. Super Duplex offers good resistance to pitting and crevice corrosion. Super Duplex is suited for use in aggressive environments.
Size : 1/8"NB TO 42"NB IN
Schedule: SCH 10, SCH20, SCH30, SCH40, STD, SCH60, XS, SCH80, SCH120, SCH140, SCH160, XXS
Type : Seamless / ERW / Welded / Fabricated / LSAW Pipes
Form : Round, Square, Rectangular, Hydraulic Etc.
Length : Single Random, Double Random & Cut Length.
End : Plain End, Beveled End, Treaded.
Nickel Alloy Pipe Standard:
• UNS 10276 (HASTELLOY C 276 Pipe)
|
• UNS 2200 (NICKEL 200 Pipe) |
• UNS 2201 (NICKEL 201 Pipe ) |
• UNS 4400 (MONEL 400 Pipe) |
• UNS 8020 (ALLOY 20 Pipe) |
• UNS 8825 INCONEL (825 Pipe) |
• UNS 6600 (INCONEL 600 Pipe ) |
• UNS 6601 (INCONEL 601 Pipe) |
• UNS 6625 (INCONEL 625 Pipe) |
Benefits of UNS32750 Super Duplex Stainless Steel
- Improved corrosion resistance in comparison to Duplex
- Greater tensile and yield strength
- Good ductility and toughness
- Good stress corrosion cracking resistance (SSC)
- Opportunity for purchases to reduce their material costs without compromising on quality
General Properties
Alloy 2507 is a super duplex stainless steel with 25% chromium, 4% molybdenum, and 7% nickel designed for demanding applications which require exceptional strength and corrosion resistance, such as chemical process, petrochemical, and seawater equipment. The steel has excellent resistance to chloride stress corrosion cracking, high thermal conductivity and a low coefficient of thermal expansion. The high chromium, molybdenum, and nitrogen levels provide excellent resistance to pitting, crevice, and general corrosion.
The impact strength is also high. Alloy 2507 is not recommended for applications which require long exposures to temperatures above 5700F because of the risk of a reduction in toughness.
Applications
- Oil and gas industry equipment
- Offshore platforms, heat exchangers, process and service water systems, fire-fighting systems, injection and ballast water systems
- Chemical process industries, heat exchangers, vessels, and piping
- Desalination plants, high pressure RO-plant and seawater piping
- Mechanical and structural components, high strength, corrosion-resistant parts
- Power industry FGD systems, utility and industrial scrubber systems, absorber towers, ducting, and piping
Standards
ASTM/ASME .......... A240 - UNS S32750
EURONORM............ 1.4410 - X2 Cr Ni MoN 25.7.4
AFNOR.................... Z3 CN 25.06 Az
Corrosion Resistance
General Corrosion
The high chromium and molybdenum content of 2507 makes it extremely resistant to uniform corrosion by organic acids like formic and acetic acid. 2507 also provides excellent resistance to inorganic acids, especially those containing chlorides.
In dilute sulfuric acid contaminated with chloride ions, 2507 has better corrosion resistance than 904L, which is a highly alloyed austenitic steel grade specially designed to resist pure sulfuric acid.
Stainless steel of type 316L (2.5%Mo) cannot be used in hydrochloric acid due to the risk of localized and uniform corrosion. However, 2507 can be used in dilute hydrochloric acid. Pitting need not be a risk in the zone below the borderline in this figure, but crevices must be avoided.
Isocorrosion curves, 0.1 mm/year, in sulfuric acid
with an addition of 2000 ppm chloride ions
Isocorrosion curves, 0.1 mm/year, in hydrochloric acid.
Broken line curve represents the boiling point
Critical Pitting Temperature (CPT) range for
various alloys in 1M NACl
Critical Crevice Corrosion Temperature (CCT)
for various alloys in 10% FeCl3
Intergranural Corrosion
2507's low carbon content greatly lowers the risk of carbide precipitation at the grain boundaries during heat treatment; therefore, the alloy is highly resistant to carbide-related intergranular corrosion.
Stress Corrosion Cracking
The duplex structure of 2507 provides excellent resistance to chloride stress corrosion cracking (SCC). Because of its higher alloy content, 2507 is superior to 2205 in corrosion resistance and strength. 2507 is especially useful in offshore oil and gas applications and in wells with either naturally high brine levels or where brine has been injected to enhance recovery.
Pitting Corrosion
Different testing methods can be used to establish the pitting resistance of steels in chloride-containing solutions. The data above were measured by an electrochemical technique based on ASTM G 61. The critical pitting temperatures (CPT) of several high-performance steels in a 1M sodium chloride solution were determined. The results illustrate the excellent resistance of 2507 to pitting corrosion. The normal data spread for each grade is indicated by the dark gray portion of the bar.
Crevice Corrosion
The presence of crevices, almost unavoidable in practical constructions and operations, makes stainless steels more susceptable to corrosion in chloride enviroments. 2507 is highly resistant to crevice corrosion. The critical crevice corrosion temperatures of 2507 and several other high-performance stainless steels are shown above.
Chemical Analysis
Typical values (Weight %)
C |
Cr |
Ni |
Mo |
N |
Others |
0.020 |
25 |
7 |
4.0 |
.27 |
S=0.001 |
PREN = [Cr%] + 3.3 [Mo%] + 16 [N%] ≥ 40 |
Mechanical Properties
Mechanical and Physical Properties
2507 combines high tensile and impact strength with a low coefficient of thermal expansion and high thermal conductivity. These properties are suitable for many structural and mechanical components. The low, ambient, and elevated temperature mechanical properties of 2507 sheet and plate are shown below. All of the test data shown are for samples in the annealed and quenched condition.
2507 is not recommended for applications which require long exposures to temperatures in excess of 5700F because of the increased risk of a reduction in toughness. The data listed here are typical for wrought products and should not be regarded as a maximum or minimum value unless specifically stated.
Mechanical Properties
Ultimate Tensile Strength, ksi |
116 min. |
0.2% Offset Yield Strength 0.2%, ksi |
80 min. |
0.1% Offset Yield Strength 0.2%, ksi |
91 min. |
Elongation in 2 inches, % |
15 min. |
Hardness Rockwell C |
32 max. |
Impact Energy, ft.-lbs. |
74 min. |
Low Temperature Impact Properties
Temperature 0F |
RT |
34 |
-4 |
-40 |
Ft.-lbs. |
162 |
162 |
155 |
140 |
Temperature 0F |
-76 |
-112 |
-148 |
-320 |
Ft.-lbs. |
110 |
44 |
30 |
7 |
Elevated Temperature Tensile Properties
Temperature 0F |
68 |
212 |
302 |
392 |
482 |
0.2% Offset Yield Strength, ksi |
80 |
65 |
61 |
58 |
55 |
Ultimate Tensile Strength, ksi |
116 |
101 |
98 |
95 |
94 |
Physical Properties
Density |
lb/in3 |
0.28 |
Modulus of Elasticity |
psi x 106 |
29 |
Coefficient of Thermal Expansion
68-2120F/0F |
x10-6/0F |
7.2 |
Thermal Conductivity |
Btu/h ft 0F |
8.7 |
Heat Capacity |
Btu/lb/0F |
0.12 |
Electrical Resistivity |
W-in x 10-6 |
31.5 |
Processing
Hot forming
2507 should be hot worked between 18750F and 22500F. This should be followed by a solution anneal at 19250F minimum and a rapid air or water quench.
Cold Forming
Most of the common stainless steel forming methods can be used for cold working 2507. The alloy has a higher yield strength and lower ductility than the austenitic steels so fabricators may find that higher forming forces, increased radius of bending, and increased allowance for springback are necessary. Deep drawing, stretch forming, and similar processes are more difficult to perform on 2507 than on an austenitic stainless steel. When forming requires more than 10% cold deformation, a solution anneal and quench are recommended.
Heat Treatment
2507 should be solution annealed and quenched after either hot or cold forming. Solution annealing should be done at a minimum of 19250F. Annealing should be followed immediately by a rapid air or water quench. To obtain maximum corrosion resistance, heat treated products should be pickled and rinsed.
Welding
2507 possesses good weldability and can be joined to itself or other materials by shielded metal arc welding (SMAW), gas tungsten arc welding (GTAW), plasma arc welding (PAW), flux cored wire (FCW), or submerged arc welding (SAW). 2507/P100 filler metal is suggested when welding 2507 because it will produce the appropriate duplex weld structure.
Preheating of 2507 is not necessary except to prevent condensation on cold metal. The interpass weld temperature should not exceed 3000F or the weld integrity can be adversely affected. The root should be shielded with argon or 90% N2/10% H2 purging gas for maximum corrosion resistance. The latter provides better corrosion resistance.
If welding is to be done on only one surface and post-weld cleaning is not possible, GTAW is suggested for root passes. GTAW or PAW should not be done without a filler metal unless post-weld cleanup is possible. A heat input of 5-38 kJ/in. should be used for SMAW or GTAW. A heat input of about 50kJ/in. can be used for SAW.
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