ASME II A SA-276 (1)

March 26, 2018 | Author: Ruth Montoya | Category: Stainless Steel, Steel, Heat Treating, Building Engineering, Building Materials
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2007 SECTION II, PART ASA-276 SPECIFICATION FOR STAINLESS STEEL BARS AND SHAPES SA-276 (Identical with ASTM Specification A 276-97.) 1. Scope 1.1 This specification covers hot-finished or cold-finished bars except bars for reforging (Note 1). It includes rounds, squares, and hexagons, and hot-rolled or extruded shapes, such as angles, tees, and channels in the more commonly used types of stainless steels. The free-machining types (Note 2), for general corrosion resistance and high-temperature service, are covered in a separate specification. 3. Ordering Information 3.1 It is the responsibility of the purchaser to specify all requirements that are necessary for material ordered under this specification. Such requirements may include but are not limited to the following: 3.1.1 Quantity (weight or number of pieces); 3.1.2 Name of material: stainless steel; 3.1.3 Form (bars, angles, etc.); 3.1.4 Condition (Section 5.1); NOTE 1 —For bars for reforging, see Specification A 314. 3.1.5 Finish (Section 4 of Specification A 484 /A 484M); NOTE 2 —For free-machining stainless bars designed especially for optimum machinability, see Specification A 582 /A 582M. 3.1.6 Surface preparation of shapes (Section 4 of Specification A 484 /A 484M); NOTE 3 —There are standards covering high nickel, chromium, austenitic corrosion, and heat resisting alloy materials. These standards are under the jurisdiction of ASTM Subcommittee B02.07 and may be found in Annual Book of ASTM Standards, Vol. 02.04. 3.1.7 Applicable dimensions including size, thickness, width, and length; 1.2 The values stated in inch-pound units are to be regarded as the standard. 3.1.8 Cross section (round, square, etc.); 3.1.9 Type or UNS designation (Table 1); 3.1.10 ASTM designation and date of issue; and 2. Referenced Documents 2.1 ASTM Standards: A 314 Specification for Stainless Steel Billets and Bars for Forging A 370 Test Methods and Definitions for Mechanical Testing of Steel Products A 484 /A 484M Specification for General Requirements for Stainless Steel Bars, Billets, and Forgings A 582 /A 582M Specification for Free-Machining Stainless Steel Bars A 751 Test Methods, Practices, and Terminology for Chemical Analysis of Steel Products E 527 Practice for Numbering Metals and Alloys (UNS) 3.1.11 Whether bars are to be rolled as bars or cut from strip or plate. 3.1.12 Test for magnetic permeability when specified by customer purchase order when ordering Types 201 and 205. 3.1.13 Special requirements. NOTE 4 —A typical ordering description is as follows: 5,000 lb (2268 kg) Stainless Steel Bars, Annealed and Centerless Ground, 11⁄2 in. (38.10 mm) Round, 10 to 12 ft (3.05 to 3.66 m) in length, Type 304, ASTM Specification A 276 dated_________, End use: machined valve parts. 4. General Requirements 4.1 In addition to the requirements of this specification, all requirements of the current edition of Specification A 484 /A 484M shall apply. Failure to comply with the 2.2 Other Document: SAE J1086 Recommended Practice for Numbering Metals and Alloys 457 Copyright ASME International Provided by IHS under license with ASME No reproduction or networking permitted without license from IHS Licensee=Instituto Mexicanos Del Petroleo/3139900001 Not for Resale, 01/22/2008 10:55:51 MST `. stainless steel shapes.`. 7. stainless steel bars. 5.1 When required by the purchase order.SA-276 2007 SECTION II. 6.`. the magnetic permeability of Types 201 and 205 in the annealed condition shall not exceed 1.2 Methods and practices relating to chemical analysis required by this specification shall be in accordance with Test Methods.1.```. Manufacture 5.1 The material shall conform to the mechanical test requirements specified in Table 2.. 6.1 The steel shall conform to the requirements for chemical composition specified in Table 1.1.`. together with a certified report of the test results shall be furnished at the time of the shipment.1 Bars shall be furnished in one of the following conditions listed in the Mechanical Requirements table: 5.4 Condition S — Strain Hardened–Relatively light cold work. 01/22/2008 10:55:51 MST .1 austenitic stainless steel.. Mechanical Properties Requirements 7.2 Condition H — Hardened and tempered at a relatively low temperature.2 as tested by a Severn-type indicator.``. 7. 5. austenitic-ferritic duplex stainless steel...1. 9.1 Condition: 5. Keywords 10. and Terminology A 751.1.1 Condition A — Annealed.1. 10. ferritic stainless steel.-`-`.1.1. Certification 9.. the producer’s certification that the material was manufactured and tested in accordance with this specification. Magnetic Permeability 8.5 Condition B — Relatively severe cold work. 7. 5. 5..1.. PART A general requirements of Specification A 484 /A 484M constitutes nonconformance to this specification. 8.``. martensitic stainless steel. when required.```. Chemical Composition 6.1 Upon request of the purchaser in the contract or order. shall be made at a location midway between the surface and the center of the cross section.2 The martensitic grades shall be capable of meeting the hardness requirements after heat treating as specified in Table 3.3 Hardness measurements.1. 458 --`.1.3 Condition T — Hardened and tempered at a relatively high temperature. Practices. 5..``.1.`--- Copyright ASME International Provided by IHS under license with ASME No reproduction or networking permitted without license from IHS Licensee=Instituto Mexicanos Del Petroleo/3139900001 Not for Resale. 00 2..00–19.030 0. .00–18. .25 .00–18.10–0.045 0.4–0.00 8..00 19.08 0.00 1.020 0.50–2.. 8.045 0.70 Cb+Ta 10ⴛC−1..010 0.030 0.18 0..00–20.50–10. .00 20.00 23.00–14.08 0.060 0..00–18.00 2. . .08–0.045 0.00–22.50 8..40 0. .00 12..060 0.00 .00 1.15 0.00 12..50–3.00 1. Cb+Ta 10ⴛC−1. 0.00 10.10 .. 0. 01/22/2008 10:55:51 MST 0.32–0.25 0.030 0.00 22.030 0.20–0..06 Carbon 201 .00 1.00 2....00–20..40 0..030 0.00–21.00–15.030 0..10 0.00 17...045 0.0–7.00 16.00 2..045 0.00 1... .00–10..00 23. ..08 0...08–0.030 0.50 .00–26.00–21.060 0...00–12..50 4.80 1.40 Nitrogen .00–19.50 5.030 0.00 19. .0 0.00–14.00 1.15–0.00 2..00–18..00 .00 16..10 Cb+Ta 10ⴛC−1.00 2.00–15.00 1.15 0.03 0..00 16...00 1.030 0.00 24.030 0.00–6.00 10.30 Other Elements 2007 SECTION II.00 2.50 2.00 16.50–23.00–20.00 1..00–12.045 0.060 0. .12 0.50 19.25 . .00 18.10 0. .030 0.045 0.. .. 305 308 .50 1.00 1...40 0.045 0.00 1...50 17..08 0.. 1.00–6.00–6...00 2.00–3.00 1.10 Cu 0.00–10.00 17..00–18.00 19.045 0.04 0.50 1.00 12.08 0.20–0.50 11. V 0.00–10.045 0.060 0..030 0..10 0.00 8.00–22.00–1.75 0....030 0.00–22.00–24..00–9.00–19..08 0..00 1.10 Cu 0. Ti 5ⴛ(C+N)−0..00 2...16 0.08 0.50–13. Cb 0.50 1..00 1.00 1.10 ..12–25 0.50–20.00 2.50–13.10–0.00 18..15 .50 8.030 0..00 10.030 0.00 24.030 0.00–10..00 2..00 5. 0..060 0.00 2..030 0..16 0.. .00 Manganese 0. . .00 1. XM–10 XM–11 XM–29 XM–28 S21800 S21900 S21904 S24000 S24100 0.00 10.00–12. 202 205 XM–19 Type S20100 S20161 S20200 S20500 S20910 UNS DesignationB 2. . ...50 17.00–14.00 24.40–0.50 0..00 22.15 0. .50 3..00–4.045 0.00 18.00 18.040 0. .045 0.08 0..00 16.30 0.03–0. .00 3.00–19..08 0.00 8.030 0.00 2.10 0...50–7.030 Sulfur Chromium 1.00–21... .00–20.00–9.40 0.10 0.00 2...030 0..00 22..00–3.10 0.00 2.030 0.00 2.060 0.040 0..00 19. .00 1. .00 10.030 0.50 Composition.08 .00 1.00–12.15–0.00–26.00 5.00–18..10 0.50–19. 2.00 1. % Austenitic Grades Silicon TABLE 1 CHEMICAL REQUIREMENTSA .00 1. 0..40–2.80 2.00 1..00 1..00–26..50–18..00–19.00–3..030 0.25 0..50–5.00 16.25–3.Copyright ASME International Provided by IHS under license with ASME No reproduction or networking permitted without license from IHS 0.50 4.10 0.030 0.00–15.00 17.18–0.25 0.50–18.030 0.045 0..50–14. ..045 0.20 ..0 . .00–14.....00 11..00–18.00–3.00–22..030 0.. .00–12. ..20 0.00–14.030 0.45 0.045 0.03 . 309 309S 309Cb 310 310S 310Cb .030 0.045 0...50–1.030 0.00 1...030 0..50–7.00 1. .030 0. .16–0.. ..00–10.00–6..00–20. .08 0..00 1.030 0. .00–24.00 8. 6.00–26..00 4. .00 2..060 0.040 0..00 8. 314 316 316LC 316Ti 316Cb S24565 S28200 S30200 S30215 S30400 S30403 S30451 S30452 S30453 S30454 S30500 S30800 S30815 S30900 S30908 S30940 S31000 S31008 S31040 S31254 S31400 S31600 S31603 S31635 S31640 459 Licensee=Instituto Mexicanos Del Petroleo/3139900001 Not for Resale. PART A SA-276 .00–25..045 0.14–0.00–19...00 2.00–20. . Ce 0...00 15.00 2..00 1.030 0.10–0..10–0.50–7.10 0.00 19.10 ... 4..045 0.00 19. . ..00 20.00–16.00 7.30.045 0.00 18.00 18.030 0..75–1.00 8.0–5.25 0.15 0..00 3.00 2. 0.00 2.50–3.50 8.040 Phosphorous 0.00–6.50–4.00 1.50 Nickel 19.08 0.16–0. .00–19.010 0..030 0.00–3.030 0.. .50 10.00 2.20 0..00 0.20–0.08 0.00–24.00 2.00 Molybdenum .22 . ..30 0.75–1.50 4.00 7. .60 0.0 17.0–18. 302 302B 304 304Lc 304N XM-21 304LN .00–10.08 0.15 0.045 0.6 0..045 0.00 14. .00 16..70 11.030 0. .00–22. . .00–10..045 0..00 10.00 16.00 17.00 17. Cb 0.. .00 8..00 1.00 5.15 0.00 16.. . . 00 2.00–13.0–27..20 0.00–23.15 C+N 0..00–18.00–20.045 0.00–20.0–5.00 3.20–0.00 2.00 2....030 0.00–2.00–26..030 0.00 2.010G 0..00 1.00–18.50 2.00 2.00 0.00–5.06 0.00–3.20 1.030 0. ..9 . Cu 0.70D Cu 1....040 0.50–14..00 2.50 Nickel TABLE 1 CHEMICAL REQUIREMENTSA (CONT’D) 3....05–0.00 2. .00 16.0 17.00 4..00 24.30 1.045 Phosphorous 0.20 3. Type S31651 S31653 S31654 S31700 S31725 UNS DesignationB 460 Licensee=Instituto Mexicanos Del Petroleo/3139900001 Not for Resale.50 6. Cu 0.. 01/22/2008 10:55:51 MST 0.00–12.00 28.60 Cu 0.00 25.025 0..40 1..040 0.020 0.030 0.020 0. Cu 0.00 1.020 0.20 0. 2.03 Carbon 0.00–7.00 1. ..00 1..20+4ⴛ (C+N)−0.0 . 0.00–27..50 max.0–5.040 0.00–19..00 2.75–1.08 0.5 Ferritic Grades 1. 0.08–0.00 6.00–27.5–19..030 0.00 1. 0.20 0.50−2.00–27..20 Cb 0..030 Sulfur Chromium Composition.50–6...00–19.00 1.75 Ti 5ⴛ(C+N)−0. . 1.00 10.045 0.00 1.00 1..75–2.00 1.08 0.50 3.00 4..10 Nitrogen .00 1.00 11.10 Co 0.25 0. % 25.00 2.020 0.00–14.40 1. Ti+Cb 0.16 .00 16.10–0.10–0..045 0. 0.00 10.10–0.00 1...030 0.00 17.50 14.00 1.030 0. Cu 0. . Ta 0.05–0.20 .00 18.045 0..030 0.00–30.040 0..25 .30 .00 4.00 2.00 1.00 0.9–3.. 2.75 Other Elements SA-276 2007 SECTION II.20 C+N 0.50 1.030 0..020 0.50 11. 0.025 0.00 1.040 0..00–20.00–4.16 0.00 Austenitic-Ferritic Grades Silicon 2...00 W 0.30 0.00 17..50 0.00 23.50 Cb+Ta 10ⴛC min Cb+Ta 10ⴛC min.00 21.. .030 0.30 .16–0.00 4. 1.50–6.08 0..00 9. 347 348 S31726 S32100 S32550 S34700 S34800 S31100 S31803 S32304 S32760E 316N 316LN .00 16.15 max. PART A .00 16.00 10. 0.00 17.00 28..030 0.00–3.05–1.15 Al 0.Copyright ASME International Provided by IHS under license with ASME No reproduction or networking permitted without license from IHS 405 429 430 .20 Ti 0. 446 XM-27F .50 0.00 13..50 9.00 2..00 1.50–4. S40500 S42900 S43000 S44400 S44600 S44627 S44700 S44800 XM-26 ..50–3..035 ...05–0.00–13.50–17. 321 .00 17.12 0..50 .30 0.00–30. .025 0.045 0.045 0.50–24.040 0...030 0.040 0.030 0. .00 .03 0.00 2.00–4.. .50 .. 317 ..05–0.010 0..50–1.00–14.030 0.00 1. .00–16.00 18...00–15. .25 Cu 0.030 0..08 0.00–14.00 13..20 .040 0..030 0.10 0.50–17.045 0.020 0. .25 .00–18.00 Manganese 0.80 Cu 0..030 0. .00 1.10–0. ..08 0.00 21.60 3.015G ..08 0.12 0...00–3. .020 0.10–0.030 0.00–8. .030 0.00 1.045 0.00 1.50 24....025 Cu 0.010 0.030 0.50 9. 2.00 1..50–4.20 0.030 0.00–19.0 Molybdenum 0.030 0.50 0.04 0..00 1..010 0.03 0. 0.00–18.. .50–14..040 0. 431 H 403 410 XM-30 414 Type S41500 S42000 S42010 S43100 S40300 S41000 S41040 S41400 UNS DesignationB TABLE 1 CHEMICAL REQUIREMENTSA (CONT’D) 2007 SECTION II.030 0.. .030 0.00 0.00 0.50 Nickel 0.040 0.60–0. 0.50 .002 %. .3 ⴛ % Mo + 16 ⴛ % N ≥ 40.030 0.75–0. .....00–18... F Nickel plus copper shall be 0. . .15 0..85 ....00 16. Cb 0. 01/22/2008 10:55:51 MST .00 0.50 .00 ..030 0..00 11. .. unless range or minimum is indicated. In such cases.00 1. .05 over 0. fabrication.00 1..00 13.60 1.030 0.040 0..50 11...00 1..030 0.30 .. D Nitrogen content is to be reported for this grade.. ..... 3.20 0..50 Martensitic Grades Silicon .90–1.15–0...50–5..50 % max... 420 .030 Sulfur Chromium Composition. .00 1.030 0. or Type 316L for Type 316 may be undesirable because of design.15 0. 1. the substitution of Type 304L for Type 304..00 1..00 12.75 0..25–2.50–1.. E % Cr + 3. .030 0. the purchaser should so indicate on the order.00–17....00 1. .040 Phosphorous 0.15 0.00 0...00 1..Copyright ASME International Provided by IHS under license with ASME No reproduction or networking permitted without license from IHS 440A 440B 440C 9 S44002 S44003 S44004 S50400 0.35–0.00 16..50–15.00 15. .75–1. Molybdenum .040 0. .. H Wrought version of CA 6NM... Other Elements NOTES A Maximum.00 1.. ..95 0... .50–13.030 0. G Product analysis tolerance over the maximum limit for carbon and nitrogen shall be 0. C For some applications...00 8..030 0... Nitrogen .00–18.15 Carbon 1.05–0.00 11..75 0..15 0.00 1. % 1.50–1... . .50–13. . 0.00–18.040 0..50–13.20 0.30–0...00 11.. .00 1.18 0.75 0.25–2. B Designations established in accordance with Practice E 527 and SAE J1086.00–14.00 1.. PART A SA-276 461 Licensee=Instituto Mexicanos Del Petroleo/3139900001 Not for Resale.030 0.030 0. . or service requirements.40–0.00–10.. . .040 0.030 0. . . .00 1.00 1.60 0.30 0.040 0.50 1.95–1..75 0.00 1.10 0.. . .50–13..040 0... .50 11.85 1.00 Manganese 0.00 1..040 0.. ..00 16... 70) all up to 1⁄2 (12. PART A ... 321. . incl. incl.2)..`. 202 Type hot-finished cold-finished hot-finished or cold-finished hot-finished or cold-finished hot-finished or cold-finished hot-finished or cold-finished hot-finished or cold-finished hot-finished or cold-finished hot-finished cold-finished hot-finished or cold-finished hot-finished or cold-finished hot-finished or cold-finished hot-finished or cold-finished hot-finished or cold-finished Finish 930 135 115 100 95 up to 2 (50.. 316. 348 304L. 304....```. over 1⁄2 (12. .Copyright ASME International Provided by IHS under license with ASME No reproduction or networking permitted without license from IHS A A A S20161 205 XM-19 --`.70) incl.. ... in.. incl.. 310S. 01/22/2008 10:55:51 MST A A A A A A XM-10. 309Cb... 304LN. 316LN. 317. 302B. Tensile Strength... ..``. XM-11 XM-29 XM-28 S24565 S28200 302..A Min. over 2 to 3 (50.2 to 203. Brinell Hardness. . (mm) Yield Strength....8 to 76. 241 ..``... 309.. all all up to 1⁄2 (12. over 3 to 8 (76... over 1⁄2 (12.. 310Cb.. . .70) incl. .B % .2)... ..D Max.`--- 462 Licensee=Instituto Mexicanos Del Petroleo/3139900001 Not for Resale. 316L A A S21800 As hotrolled A Condition 201. 305. Min... % 40G 30 30 35 35 30 30 45 25 30 35 20 35 40 40 40 Elongation in 2 in. .B or 4D Min. 347..`... 310. . 316Cb...`. 308. 309S..``. . .70) 485 620 485 515 620 515 75E 90 75E 70 90 70 760 110 795 115 all all 690 100 690 100 all all 620 90 all 795 690 655 690 100 all 690 100 all 515 860 75 125 Austenitic Grades 170 310 170 205 310 205 30E 45 30E 25 45 25 410 415 380 380 345 515 415 345 725 380 414 345 275 60 60 55 55 50 75 60 50 105 55 60 50 40 MPa ksi MPa ksi all all Diameter or Thickness.C Min. 314. TABLE 2 MECHANICAL REQUIREMENTS 50 40 40 50 40 40 40G 30 30 55 40 50 50 60 50 50 55 50 55 50 40 45 Reduction of Area. 255 .-`-`.`.8)... SA-276 2007 SECTION II. (50 mm). 316Ti..```. . Tensile Strength.``.75) to 11⁄2 (38..`..```. ..-`-`. Min. 302... ... 316.2) incl... . . S31654 XM-21...05) incl. all 463 Licensee=Instituto Mexicanos Del Petroleo/3139900001 Not for Resale..... 01/22/2008 10:55:51 MST 35 30 44 125 115 105 100 45 80 65 50 45 75 65 55 50 100 35 240 205 300 860 795 725 690 310 550 450 345 310 515 450 380 345 690 240 MPa ksi MPa ksi Austenitic Grades (Cont’d) Diameter or Thickness.8 to 63. PART A SA-276 . TABLE 2 MECHANICAL REQUIREMENTS (CONT’D) 40 40 35 15 16 17 18 40 15 20 24 28 25 30 30 30 12 30 Elongation in 2 in... % . ..10) to 13⁄4 (44. . ... S31654 S30815 S31254 S31725 S31726 S B 202.. 316N A Condition 304N.8) incl..75) over 11⁄4 (31..75) over 11⁄4 (31. 316N Type hot-finished or cold-finished hot-finished or cold-finished hot-finished or cold-finished hot-finished or cold-finished hot-finished or cold-finished cold finished cold-finished hot-finished or cold-finished cold-finished Finish --`.`--- Copyright ASME International Provided by IHS under license with ASME No reproduction or networking permitted without license from IHS 115 105 100 95 95 90 80 90 over 3⁄4 (19.. . over 21⁄2 to 3 (63. 2007 SECTION II.A B A A A A XM-21... all 1000 930 895 860 600 650 515 550 95 75 80 all all all 795 725 690 655 650 620 550 620 860 550 145 135 135 125 87 up to 1 (25.. .40) over 1 (25.... (mm) Yield Strength. .40) to 11⁄4 (31.D Max....5) incl..`. 304N.40) incl. 304.75) to 11⁄2 (38.C Min. S30454.5 to 76.45) all 125 80 up to 3⁄4 (19. ..```. in. Reduction of Area. ..A Min. .``.10) over 11⁄2 (38... S30454.. .``.B or 4D Min..B % . over 1 (25. Brinell Hardness.. . 316N 304.05) to 1 (25. .40) to 11⁄4 (31. over 2 to 21⁄2 (50. .`.`...10) to 13⁄4 (44..10) over 11⁄2 (38... 316.. 50 45 45 45 45 50 35 35 45 45 40 40 40 50 35 . (50 mm)... 304N..45) up to 2 (50.. . .. (mm) Yield Strength.-`-`. ..... ....`... . 40 40 30 105 80 80 58 65 65 310 310 275 275 380 415 380 415 ... .. 275 275 207 720 550 550 400 448 450 MPa ksi MPa ksi Austenitic-Ferritic Grades Diameter or Thickness. 45 45 45 ...... 335 290 302 290 290 . .. SA-276 2007 SECTION II..... .. Brinell Hardness. PART A --`....A Min. 55 Reduction of Area... .B or 4D Min... % 217 217 219 219 .. .```.``.. . in.. .. 01/22/2008 10:55:51 MST . 20 16 20 16 25 15 25 25 20 Elongation in 2 in.Copyright ASME International Provided by IHS under license with ASME No reproduction or networking permitted without license from IHS S A A A A A A A 405F 429 430 S44400 446.``. ..`...B % 45 45 45 45 40 30 40 30 .. XM-27 S44700 S44800 A S32550 S32760 A S32304 A A S31803 S32760 A Condition XM-26 Type 464 hot-finished cold-finished hot-finished cold-finished hot-finished or cold-finished hot-finished cold-finished hot-finished cold-finished hot-finished cold-finished hot-finished cold-finished hot-finished or cold-finished hot-finished or cold-finished hot-finished cold-finished hot-finished or cold-finished hot-finished or cold-finished cold-finished Finish all all all all all all all all all all all all all all all Ferritic Grades 60 60 65 65 70 75 70 75 ... 480 480 415 860 750 760 600 87 all all 620 620 90 90 all all 45 45 40 40 55 60 55 60 ...```.... . TABLE 2 MECHANICAL REQUIREMENTS (CONT’D) 20 16 20 16 20 15 20 15 .C Min. 70 70 60 125 109 110 415 415 450 450 480 520 480 520 .`...`--- Licensee=Instituto Mexicanos Del Petroleo/3139900001 Not for Resale... (50 mm)... .. 207 217 . Min.``..`. Tensile Strength... ... .D Max. ... 115 all all all all 790 115 all 795 480 480 690 690 860 860 830 830 480 480 .........A Min.. (4.... 30% min.. TABLE 2 MECHANICAL REQUIREMENTS (CONT’D) 2007 SECTION II. 30 80 255 285 ...... 241 255 235 295 .B % NOTES A Yield strength shall be determined by the 0. when necessary. ..5 mm) or less. T A T S41500 440A.. 60 100 all all all all ... Reduction of Area. D Or equivalent Rockwell hardness. Tensile Strength..... (mm) Elongation in 2 in.. Min. Brinell Hardness. and tensile strength shall be 70 ksi (480 MPa) min. ..D Max... 410 420 A Condition 403.C Min. A A 414 431 A XM-30 A H 403....... ..... . . . . . .. ....... .. 410 S42010 T XM-30 A T 403. elongation is acceptable.... An alternative method of determining yield strength may be used based on total extension under load of 0... 410 Type Yield Strength. .. .... .2% offset in accordance with Test Methods and Definitions A 370... is permissible in accordance with Test Methods and Definitions A 370... .. . The use of sub-size test specimens. all all ... . 298 . .. .. . 550 14 35 241 269 285 179 . . 302 . 207 ...... % .B or 4D Min... . . and 440C T 414 . . . . 90 90 40 40 80 80 100 100 90 90 40 40 . ..... . ... 235 . ....... F Material shall be capable of being heat treated to a maximum Brinell hardness of 250 when oil quenched from 1750°F (953°C). . .... .. B For some specific products.. 45 45 45 45 45 40 45 35 40 40 45 35 . or 50 mm gage length.. E For extruded shapes of all Cr-Ni grades of Condition A. (50 mm).. PART A SA-276 465 Licensee=Instituto Mexicanos Del Petroleo/3139900001 Not for Resale.Copyright ASME International Provided by IHS under license with ASME No reproduction or networking permitted without license from IHS A 9 (S50400) hot-finished cold-finished hot-finished or cold-finished hot-finished or cold-finished hot-finished cold-finished hot-finished cold-finished hot-finished cold-finished hot-finished cold-finished hot-finished cold-finished hot-finished or cold-finished hot-finished or cold-finished hot-finished or cold-finished hot-finished cold-finished hot-finished or cold-finished cold-finished hot-finished or cold-finished Finish ............ 30 . ..... . 70 70 100 100 125 125 120 120 70 70 . in.5%.. .. . . 01/22/2008 10:55:51 MST .76 mm) and under in thickness as this determination is not generally made in this product size. . 440B.... . G For shapes having section thickness of 1⁄2 in.. (12.... 15 15 20 16 15 12 13 12 12 12 13 12 .. . ..... 620 620 275 275 550 550 690 690 620 620 275 275 .. it may not be practicable to use a 2 in. .... 45 . . C Reduction of area does not apply on flat bars 3⁄16 in. 415 690 .. MPa ksi MPa ksi all all all all all all all all (rounds only) all all all Martensitic Grades Diameter or Thickness.... the yield strength shall be 25 ksi (170 MPa) min.. B Temperature tolerance is ±25°F (14°C). (9.SA-276 2007 SECTION II. 1750 1750 1750 1825 1850 1875 1875 1875 1875 (955) (955) (955) (995) (1010) (1020) (1020) (1020) (1020) Quenchant Hardness HRC.50 mm) in thickness. 466 Copyright ASME International Provided by IHS under license with ASME No reproduction or networking permitted without license from IHS Licensee=Instituto Mexicanos Del Petroleo/3139900001 Not for Resale. Min. Air Air Oil Air Oil Oil Air Oil Air 35 35 42 50 48 40 55 56 58 NOTES A Samples for testing shall be in the form of a section not exceeding 3⁄8 in. PART A TABLE 3 RESPONSE TO HEAT TREATMENT TypeA 403 410 414 420 S42010 431 440A 440B 440C Heat Treatment TemperatureB °F (°C). Min. 01/22/2008 10:55:51 MST .
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