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ASTM A511

astm a511 stainless tube

ASTM A511/A511M specification covers seamless stainless tubing for use in mechanical applications where corrosion-resistant or high-temperature strength is needed.

If you require details of ASTM A511-04, refer here ASTM A511-04…

Keywords:

Abstract

This specification covers seamless stainless steel tubing for use in mechanical applications where corrosion-resistant or high-temperature strength is needed. The steel may be cast in ingots or may be strand cast. When steel of different grades is sequentially strand cast, identification of the resultant transition material is required. The tubes shall be made by a seamless process and by either cold working or hot working as specified. Seamless stainless steel tubing is a tubular product made without a welded seam. It is usually manufactured by hot working steel and then cold finishing the hot-worked tubing to produce the desired shape, dimensions and properties All austenitic tubes shall be furnished in the annealed condition. An analysis of each heat of steel shall be made to determine the percentages of the elements specified. If secondary melting processes are employed, the heat analysis shall be obtained from one remelted ingot or the product of one remelted ingot of each primary melt.

This abstract is a brief summary of the referenced standard. It is informational only and not an official part of the standard; the full text of the standard itself must be referred to for its use and application. ASTM does not give any warranty express or implied or make any representation that the contents of this abstract are accurate, complete or up to date.

Scope:

1.1 This specification covers seamless stainless steel tube for use in mechanical applications where corrosion-resistant or high-temperature strength is needed. The grades covered are listed in Table 1 and Table 2.1.2 This specification covers seamless cold-finished mechanical tubing and seamless hot-finished mechanical tubing in sizes up to 12¾ in. [325 mm] in outside nominal diameter (for round tubing) with wall thicknesses as required.1.3 Tubes shall be furnished in one of the following shapes, as specified by the purchaser: round, square, rectangular, or special.1.4 Optional supplementary requirements are provided and when desired, shall be stated in the order.1.5 The values stated in inch-pound units are to be regarded as the standard. Within the text, the SI units are shown in square brackets. The values stated in each system are not exact equivalents; therefore, each system shall be used independently of the other.

Referenced Documents

A1016/A1016M Specification for General Requirements for Ferritic Alloy Steel, Austenitic Alloy Steel, and Stainless Steel TubesA370 Test Methods and Definitions for Mechanical Testing of Steel ProductsE59 Practice for Sampling Steel and Iron for Determination of Chemical CompositionMIL-STD-129 Marking for Shipment and StorageMIL-STD-163 Steel Mill Products Preparation for Shipment and StorageFed. Std. No. 123 Marking for Shipments (Civil Agencies)

Index Terms

austenitic stainless steel; mechanical tubing; seamless steel tubestainless steel pipe; steel tube; Corrosive service applications–tube (steel);High-temperature service applications–steel tube; Mechanical tubing–specifications; Seamless steel tube–specifications; Stainless steel pipe–specifications; ICS Number Code 23.040.10; 23.040.40; ICS Number Code 23.040.10; 23.040.40For More Details,Please refer to: ASTM A511/511M

TABLE 1 Chemical Requirements of Austenitic Stainless Steels

GradeCarbonManganese, maxPhosphorus,maxSulfur, maxSilicon, maxNickelChromiumMolybdenumTitaniumColumbium plus TantalumSelenium
MT 3020.08 to 0.2020.040.0318.0–10.017.0–19.0............
MT 3030.15 max20.20.15 min18.0–10.017.0–19.0............
MT 303Se0.15 max20.040.0418.0–11.017.0–19.0.........0.12–0.2
MT 3040.08 max20.040.0318.0–11.018.0–20.0............
MT 304L0.035 maxA20.040.0318.0–13.018.0–20.0............
MT 3050.1220.040.03110.0–13.017.0–19.0............
MT 309S0.08 max20.040.03112.0–15.022.0–24.0............
MT 310S0.08 max20.040.03119.0–22.024.0–26.0............
MT 3160.08 max20.040.03111.0–14.016.0–18.02.0–3.0.........
MT 316L0.035 maxA20.040.03110.0–15.016.0–18.02.0–3.0.........
MT 3170.08 max20.040.03111.0–14.018.0–20.03.0–4.0.........
MT 3210.08 max20.040.0319.0–13.017.0–20.0...B......
MT 3470.08 max20.040.0319.0–13.017.0–20.0......C...
A For small diameter or thin wall tubing or both, where many drawing passes are required, a maximum of 0.040 % carbon is necessary in grades MT-304L and MT-316L. Small outside diameter tubes are defined as those under a 0.500 in. [12.7 mm] outside diameter and light-wall tubes as those under a 0.049 in. [1.2 mm] average wall thickness (0.044 in. [1.1 mm] min wall thickness).

B The titanium content shall be not less than five times the carbon content and not more than 0.60 %.

C The columbium plus tantalum content shall be not less than ten times the carbon content and not more than 1.00 %.

TABLE 2 Chemical requirements of ferritic and martensitic stainless steels

GradeCarbon, maxManganese, maxPhosphorus,maxSulfur, maxSilicon, maxNickelChromiumMolybdenumAluminumCopperNitrogenSelenium
MT 4030.1510.040.030.50.50 max11.5–13.00.60 max
MT 4100.1510.040.0310.50 max11.5–13.5...............
MT 4140.1510.040.0311.25–2.5011.5–13.5...............
MT 416Se0.151.250.060.0610.50 max12.0–14.0............0.12–0.20
MT 4310.210.040.0311.25–2.5015.0–17.0...............
MT 440A0.60 to 0.7510.040.031...16.0–18.00.75 max............
Ferritic
MT 4050.0810.040.0310.50 max11.5–14.5...0.10–0.30.........
MT 4290.1210.040.0310.50 max14.0–16.0...............
MT 4300.1210.040.0310.50 max16.0–18.0...............
MT 4430.210.040.0310.50 max18.0–23.0......0.90–1.25......
MT 446–10.21.50.040.0310.50 max23.0–30.0.........0.25 max...
MT 446–2A0.121.50.040.0310.50 max23.0–30.0.........0.25 max...
29-40.010.30.0250.020.20.15 max28.0–30.03.5–4.2...0.15 max0.020 max...
29-4-20.010.30.0250.020.22.0–2.528.0–30.03.5–4.2...0.15 max0.020 maxB...
A MT446-2 is a lower carbon version of MT446-1, that has a lower tensile strength but improved ductility and toughness.

B Carbon plus nitrogen = 0.025 max %.
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