Super Duplex UNS S32760 Stainless Steel Pipe Alloy 32760 SS Pipe Tubing OD10 - 325mm
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Model Number:304 304L 316L 316LN 316Ti 317L 321 310S 309S 347 2205 2507 904L 254SMO S32760 410S.etc
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Super Duplex UNS S32760 Stainless Steel Pipe Alloy 32760 SS Pipe Tubing OD10 - 325mm
ASTM A789 S32760 / ASME SA 789 S32760 Super Duplex Steel Pipe, EN
10216 - 5 1.4501 Super Duplex has enhanced pitting and crevice
corrosion resistance compared with the ordinary austenitic or
duplex types. This is due to the further additions of chromium,
molybdenum, and nitrogen to these grades. UNS S32760, F55, 1.4501
combines high strength and good ductility with outstanding
corrosion resistance. With UNS S32760, F55, 1.4501 having these
attribute it is used in a wide range of marine, oil and gas
environments. UNS S32760, F55, 1.4501 is the most common super
duplex grade.
Super Duplex Alloy UNS S32760 (1.4501) has excellent corrosion resistance to a wide variety of media, with outstanding resistance to pitting and crevice corrosion in seawater and other chloride containing environments, with Critical Pitting Temperature exceeding 50°C.UNS S32760, F55, 1.4501 Super Duplex has enhanced pitting and crevice corrosion resistance compared with the ordinary austenitic or duplex types. This is due to the further additions of chromium, molybdenum, and nitrogen to these grades. UNS S32760, 1.4501 combines high strength and good ductility with outstanding corrosion resistance.
Providing higher strength than both austenitic and 22% Cr Duples Stainless Steel UNS S32760 (F55) is suited to a variety of applications in industries such as Chemical Processing, Oil & Gas, and Marine environments. Super Duplex Alloy UNS S32760 (F55 / 1.4501) has excellent corrosion resistance to a wide variety of media, with outstanding resistance to pitting and crevice corrosion in seawater and other chloride containing environments, with Critical Pitting Temperature exceeding 50°C.
| ASTM A789 S32760 ASME SA 789 S32760 Super Duplex Steel Pipe Chemical Composition | ||||||||||
| C. | Cr. | Cu. | Mn. | Mo. | N. | Ni. | P. | S. | Si. | W. |
| 0.030% | 24.00- | 0.50- | 1.00% | 3.00- | 0.20- | 6.00- | 0.035% | 0.010% | 1.00% | 0.50- |
| max | 26.00% | 1.00% | max | 4.00% | 0.30% | 8.00% | max | max | max | 1.00% |
S32760 Super Duplex Steel Tubing Minimum Mechanical Properties at
Room Temperature
(EN10088-3 1.4501 UNS S32760 OD19.05mm,WT1.65mm - Annealing and
Pickeling)
| Tensile (UTS) | 678-692N/mm² | |
| 0.2% Proof Stress | 530 N/mm² Min | |
| Elongation | 29-30% | |
| Hardness(Rockwell) | 29/30 | |
| Impact | 100J |
Super Duplex Stainless Steel Specifications EN10088-3 UNS S32760 F55 1.4501 Grade X2CrNiMoCuWN25-7-4 ASTM A182 F55 NACE MR01-75 ISI 15156ASTM A276 A314 SAE J405 Norsok MDS D51 D55 D57 D58
Super Duplex stainless steel – with a microstructure of 50:50 austenite and ferrite, the steel has improved strength over ferritic and austenitic steel grades. With a higher than average Molybdenum and Chromium content, the material has greater heat and corrosion resistant qualities.
With reduced production costs when compared with equivalent austenitic and ferritic grades and with greater yield and tensile strength, SuperDuplex is a cost effective solution for the consumer. It is conceivable that material thicknesses for a project may be reduced if SuperDuplex is used, thus reducing cost without compromising quality.
Benefits of UNS S32760 Super Duplex Stainless Steel
- Increased tensile & yield strength
- Good ductility and toughness
- SCC resistance
- Corrosion resistance is better than Duplex
- Cost effective
S32760 Super Duplex Steel Pipe Applications
UNS S32760 is used in the oil and gas industry, on offshore
platforms, in heat exchanger, chemical processing equipment,
pressure vessels and boilers.
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 exchanger, vessels, and piping,
Desalination plants, high pressure RO-plants 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.
S32760 Super Duplex Steel Pipe Corrosion Resistance
The high chromium and molybdenum content of Super Duplex makes it extremely resistant to uniform corrosion by organic acids like formic and acetic acid. Super Duplex also provides excellent resistance to inorganic acids, especially those containing chlorides.
ASTM A789 / ASME SA789 covers grades of average wall thickness, or,
if specified on the order, minimum wall thickness, of stainless
steel tubing for services requiring general corrosion resistance,
with particular emphasis on resistance to stress corrosion
cracking. These steels are suscep- tible to embrittlement if used
for prolonged periods at elevated temperatures.
The values stated in either SI units or inch-pound units are to be
regarded separately as standard. The values stated in each system
may not be exact equivalents; therefore, each system shall be used
independently of the other. Combining values from the two systems
may result in non-conformance with the standard. Within the text,
the SI units are shown in brackets. The inch-pound units shall
apply unless the M designation of this specification is specified
in the order.
Referenced Documents
ASTM Standards:
A480/A480M Specification for General Requirements for Flat-Rolled
Stainless and Heat-Resisting Steel Plate, Sheet, and Strip
A1016/A1016M Specification for General Requirements for Ferritic
Alloy Steel, Austenitic Alloy Steel, and Stainless Steel Tubes
E527 Practice for Numbering Metals and Alloys in the Unified
Numbering System (UNS)
SAE Standard:
SAE J 1086 Practice for Numbering Metals and Alloys (UNS)
Ordering Information
Orders for product under this specification should in- clude the following, as required, to describe the desired material adequately:Quantity (feet, metres, or number of lengths),
Name of product (seamless or welded tubes),
Grade
Size (outside diameter and average wall thickness, unless minimum wall thickness is specified),
Length (specific or random),
Optional requirements (for product analysis, see Section for hydrostatic or nondestructive electric test, see Section 10
Test report required (see the Inspection section of Specification A1016/A1016M
Specification designation, and
Special requirements.
General Requirements
Product furnished under this specification shall conform to the applicable requirements of specification A1016/ A1016M, unless otherwise provided herein.Manufacture
The tubes shall be made by the seamless or welded process with no filler metal added.Heat Treatment
All tubes shall be furnished in the heat-treated condition in accordance with the procedures shown in Table 2. For seamless tubes, as an alternate to final heat treatment in a continuous furnace or batch-type furnace, immediately follow- ing hot forming while the temperature of the tubes is not less than the specified minimum solution treatment temperature, tubes may be individually quenched in water or rapidly cooled by other means.
Table.1 ASTM A789 Duplex Steel Chemical Composition
The steel shall conform to the chemical requirements prescribed in Table 1.| UNS | |||||||||||
| Designation | C | Mn | P | S | Si | Ni | Cr | Mo | N | Cu | Others |
| S31200 | 0.030 | 2.00 | 0.045 | 0.030 | 1.00 | 5.5–6.5 | 24.0–26.0 | 1.20–2.00 | 0.14–0.20 | . . . | . . . |
| S31260 | 0.030 | 1.00 | 0.030 | 0.030 | 0.75 | 5.5–7.5 | 24.0–26.0 | 2.5–3.5 | 0.10–0.30 | 0.20 –0.80 | W 0.10 –0.50 |
| S31500 | 0.030 | 1.20 –2.00 | 0.030 | 0.030 | 1.40 –2.00 | 4.3–5.2 | 18.0–19.0 | 2.50–3.00 | 0.05–0.1 | . . . | . . . |
| S31803 | 0.030 | 2.00 | 0.030 | 0.020 | 1.00 | 4.5–6.5 | 21.0–23.0 | 2.5–3.5 | 0.08–0.20 | . . . | . . . |
| S32001 | 0.030 | 4.00 –6.00 | 0.040 | 0.030 | 1.00 | 1.0–3.0 | 19.5–21.5 | 0.60 | 0.05–0.17 | 1.00 | . . . |
| S32003 | 0.030 | 2.00 | 0.030 | 0.020 | 1.00 | 3.0-4.0 | 19.5-22.5 | 1.50-2.00 | 0.14-0.20 | . . . | . . . |
| S32101 | 0.040 | 4.0-6.0 | 0.040 | 0.030 | 1.00 | 1.35-1.70 | 21.0-22.0 | 0.10-0.80 | 0.20-0.25 | 0.10 -0.80 | . . . |
| S32202 | 0.030 | 2.00 | 0.040 | 0.010 | 1.00 | 1.00–2.80 | 21.5–24.0 | 0.45 | 0.18–0.26 | . . . | . . . |
| S32205 / Alloy 2205 | 0.030 | 2.00 | 0.030 | 0.020 | 1.00 | 4.5–6.5 | 22.0–23.0 | 3.0–3.5 | 0.14–0.20 | . . . | . . . |
| S32304 / Alloy 2304 | 0.030 | 2.50 | 0.040 | 0.040 | 1.00 | 3.0–5.5 | 21.5–24.5 | 0.05–0.60 | 0.05–0.20 | 0.05 –0.60 | . . . |
| S32506 | 0.030 | 1.00 | 0.040 | 0.015 | 0.90 | 5.5–7.2 | 24.0–26.0 | 3.0–3.5 | 0.08–0.20 | . . . | W 0.05 –0.30 |
| S32520 | 0.030 | 1.50 | 0.035 | 0.020 | 0.80 | 5.5–8.0 | 23.0–25.0 | 3.–5. | 0.20–0.35 | 0.50 –3.00 | . . . |
| S32550 | 0.04 | 1.50 | 0.040 | 0.030 | 1.00 | 4.5–6.5 | 24.0–27.0 | 2.9–3.9 | 0.10–0.25 | 1.50 –2.50 | . . . |
| S32707 | 0.030 | 1.50 | 0.035 | 0.010 | 0.50 | 5.5–9.5 | 26.0–29.0 | 4.0–5.0 | 0.30–0.50 | 1.0 max | Co 0.5 –2.0 |
| S32750 / 2507 Pipe | 0.030 | 1.20 | 0.035 | 0.020 | 0.80 | 6.0–8.0 | 24.0–26.0 | 3.0–5.0 | 0.24–0.32 | 0.50 | . . . |
| S32760 | 0.030 | 1.00 | 0.030 | 0.010 | 1.00 | 6.0–8.0 | 24.0–26.0 | 3.0–4.0 | 0.20–0.30 | 0.50 –1.00 | W 0.50 –1.00 |
| S32808 | 0.030 | 1.10 | 0.030 | 0.010 | 0.50 | 7.0–8.2 | 27.0–27.9 | 0.80–1.20 | 0.30–0.40 | . . . | W 2.10 –2.50 |
| S32900 | 0.08 | 1.00 | 0.040 | 0.030 | 0.75 | 2.5–5.0 | 23.0–28.0 | 1.00–2.00 | . . . | . . . | . . . |
| S32906 | 0.030 | 0.80 –1.50 | 0.030 | 0.030 | 0.80 | 5.8–7.5 | 28.0 –30.0 | 1.50–2.60 | 0.30–0.40 | 0.80 | . . . |
| S32950 | 0.030 | 2.00 | 0.035 | 0.010 | 0.60 | 3.5–5.2 | 26.0–29.0 | 1.00–2.50 | 0.15–0.35 | . . . | . . . |
| S33207 | 0.030 | 1.50 | 0.035 | 0.010 | 0.80 | 6.0–9.0 | 29.0–33.0 | 3.0–5.0 | 0.40–0.60 | 1.0 | . . . |
| S39274 | 0.030 | 1.00 | 0.030 | 0.020 | 0.80 | 6.0–8.0 | 24.0–26.0 | 2.5–3.5 | 0.24–0.32 | 0.20 –0.80 | W 1.50 –2.50 |
| S39277 | 0.025 | 0.80 | 0.025 | 0.002 | 0.80 | 6.5–8.0 | 24.0–26.0 | 3.00–4.00 | 0.23–0.33 | 1.20 –2.00 | W 0.80 –1.21 |
| S82011 | 0.030 | 2.0 –3.0 | 0.040 | 0.020 | 1.00 | 1.00–2.00 | 20.5–23.5 | 0.10–1.00 | 0.15–0.27 | 0.50 | . . . |
| S82441 | 0.030 | 2.50 –4.00 | 0.035 | 0.005 | 0.70 | 3.0–4.5 | 23.0–25.0 | 1.00–2.00 | 0.20–0.30 | 0.10 –0.80 | |
B Designation established in accordance with Practice E527 and SAE J1086.
C % Cr + 3.3 × % Mo + 16 × % N $ 41.
D % Cr + 3.3 × % Mo + 16 × % N $ 40.
Product Analysis
1. An analysis of either one billet or one length of flat-rolled
stock or one tube shall be made from each heat. The chemical
composition thus determined shall conform to the requirements
specified.
2. A product analysis tolerance (see the annex table on Chemical
Requirements (Product Analysis Tolerances) in Specification
A480/A480M) shall apply. The product analysis tolerance is not
applicable to the carbon content for material with a specified
maximum carbon of 0.04 % or less.
3. If the original test for product analysis fails, retests of two
additional billets, lengths of flat-rolled stock, or tubes shall be
made. Both retests for the elements in question shall meet the
requirements of this specification; otherwise, all remaining
material in the heat shall be rejected or, at the option of the
producer, each billet or tube may be individually tested for
acceptance. Billets, lengths of flat-rolled stock, or tubes that do
not meet the requirements of this specification shall be re-jected.
NOTE 1—For flange and flaring requirements, the term lot applies to
all tubes prior to cutting of the same nominal size and wall
thickness that are produced from the same heat of steel. When final
heat treatment is in a batch-type furnace, a lot shall include only
those tubes of the same size and from the same heat that are heat
treated in the same furnace charge. When the final heat treatment
is in a continuous furnace, or when heat treated condition is
obtained directly by quenching after hot forming, the number of
tubes of the same size and from the same heat in a lot shall be
determined from the size of the tubes as prescribed in Table 3.
NOTE 2—For tension and hardness test requirements, the term lot
applies to all tubes prior to cutting, of the same nominal diameter
and wall thickness that are produced from the same heat of steel.
When final heat treatment is in a batch-type furnace, a lot shall
include only those tubes of the same size and the same heat that
are heat treated in the same furnace charge. When the final heat
treatment is in a continuous furnace, or when heat treated
condition is obtained directly by quenching after hot forming, a
lot shall include all tubes of the same size and heat, heat treated
in the same furnace at the same temperature, time at heat, and
furnace speed, or all tubes of the same size and heat, hot formed
and quenched in the same production run.
Mechanical Tests Required
1. Tension Tests—One tension test shall be made on a specimen for lots of not more than 50 tubes. Tension tests shall be made on specimens from two tubes for lots of more than 50 tubes (see Note 2).2. Flaring Test (for Seamless Tubes)—One test shall be made on specimens from one end of one tube from each lot (see Note 1) of finished tubes. The minimum expansion of the inside diameter shall be 10 %.
3. Flange Test (for Welded Tubes)—One test shall be made on specimens from one end of one tube from each lot (see Note1) of finished tubes.
4. Hardness Test—Brinell or Rockwell hardness tests shall be made on specimens from two tubes from each lot (see Note 2).
5. When more than one heat is involved, the tension, flaring, flanging, and hardness test requirements shall apply to each heat.
6. Reverse Flattening Test—For welded tubes, one reverse flattening test shall be made on a specimen from each 1500 ft [450 m] of finished tubing.
Hydrostatic or Nondestructive Electric Test
1 Each tube shall be subjected to the nondestructive electric test
or the hydrostatic test. The type of test to be used shall be at
the option of the manufacturer, unless otherwise specified in the
purchase order.
2. The hydrostatic test shall be in accordance with Speci- fication
A1016/A1016M, except that in the calculation of the hydrostatic
test pressure 64000(441.2) shall be substituted for 32000(220.6).
Table.2 Heat Treatment
| UNS Designation | Temperature | Quench |
| S31803 | 1870-2010 °F [1020-1100°C] | Rapid cooling in air or water |
| S32205 | 1870-2010 °F [1020-1100°C] | Rapid cooling in air or water |
| S31500 | 1800-1900 °F [980-1040°C] | Rapid cooling in air or water |
| S32550 | 1900 °F [1040°C] min. | Rapid cooling in air or water |
| S31200 | 1920-2010 °F [1050-1100°C] | Rapid cooling in water |
| S31260 | 1870-2010 °F [1020-1100°C] | Rapid cooling in water |
| S32001 | 1800-1950 °F [982-1066°C] | Rapid cooling in air or water |
| S32003 | 1850-2050 °F [1010-1120°C] | Rapid cooling in air or water |
| S32101 | 1870 °F min | Quenched in water or Rapidly cooling in other means |
| S32202 | 1870-1975 °F [1020-1080°C] | Rapid cooling in air or water |
| S32506 | 1870-2050 °F [1020-1120°C] | Rapid cooling in air or water |
| S32304 | 1700-1920 °F [925-1050°C] | Rapid cooling in air or water |
| S32750 | 1880-2060 °F [1025-1125°C] | Rapid cooling in air or water |
| S32760 | 2010-2085 °F [1100-1140°C] | Rapid cooling in air or water |
| S32950 | 1820-1880 °F [990-1025°C] | Rapid cooling in water |
| S32520 | 1975-2050 °F [1080-1120°C] | Rapid cooling in air or water |
Tensile Strength and Hardness Requirements
11.1 The material shall conform to the tensile and hardness properties prescribed in Table 4.| Grade | Tensile strength, min., ksi [MPa] | Yield strength, min., ksi [MPa] | Elongation in 2 in., or 50mm, min, % | Hardness, Max Brinell |
| S31803 | 90 [620] | 65 [450] | 25 | 290 |
| S32205 | 95 [655] | 70 [485] | 25 | 290 |
| S31500 | 92 [630] | 64 [440] | 30 | 290 |
| S32550 | 110 [760] | 80 [550] | 15 | 297 |
| S31200 | 100 [690] | 65 [450] | 25 | 280 |
| S31260 | 100 [690] | 65 [450] | 25 | 290 |
| S32001 | 90 [620] | 65 [450] | 25 | 290 |
| S32304 | 100 [690] | 65 [450] | 25 | 290 |
| S32750 | 116 [800] | 80 [550] | 15 | 310 |
| S32760 | 109 [750] | 80 [550] | 25 | 300 |
| S32950 | 100 [690] | 70 [480] | 20 | 290 |
| S32520 | 112 [770] | 80 [550] | 25 | 310 |
For tubing smaller than 1⁄2 in. [12.7 mm] in outside diameter, the
elongation values given for strip specimens in Table 4 shall apply.
Mechanical property requirements do not apply to tubing smaller
than 1⁄8 in. [3.2 mm] in outside diameter or with walls thinner
than 0.015 in. [0.4 mm].
Prior to A789/A789M–04, the values for S32003 were 90 ksi tensile
strength and 65 ksi yield strength.
Permissible Variations in Dimensions
1 Variations in outside diameter, wall thickness, and length from
those specified shall not exceed the amounts prescribed in Table 5.
2 The permissible variations in outside diameter given in Table 5
are not sufficient to provide for ovality in thin-walled tubes, as
defined in the table. In such tubes, the maximum and minimum
diameters at any cross section shall deviate from the nominal
diameter by no more than twice the permissible variation in outside
diameter given in Table 5; however, the mean diameter at that cross
section must still be within the given permissible variation.
Surface Condition
All tubes shall be free of excessive mill scale, suitable for inspection. A slight amount of oxidation will not be considered as scale. Any special finish requirements shall be subject to agreement between the manufacturer and the purchaser.
Product Marking
In addition to the marking prescribed in Specification A1016/A1016M, the marking shall indicate whether the tubing is seamless or welded and the wall designation (average wall or minimum wall).
Super Duplex UNS S32760 Stainless Steel Pipe Alloy 32760 SS Pipe Tubing OD10 - 325mm
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