Seamless Carbon Steel High-Temperature Pipe
ASTM A106 / ASME SA106
ASTM A106 Seamless Carbon Steel Pipe High Temperature Standard Specification for Seamless Carbon Steel Pipe for High-Temperature
ASTM Scope
This specification covers seamless carbon steel pipe for high-temperature service in NPS 1/8 to NPS 48 inclusive, with nominal (average) wall thickness as given in ASME B 36.10M. It shall be permissible to furnish pipe having other dimensions provided such pipe complies with all other requirements of this specification. Pipe ordered under this specification shall be suitable for bending, flanging, and similar forming operations, and for welding. When the steel pipes are to be joined together, it is presupposed that a welding procedure suitable to the grade of steel and intended use or service will be utilized.
Product Knowledge
Common uses include pressure piping at high temperatures (piping for water, air or steam, etc.). Though the product is described as for “high temperatures”, ASME allows for use as low as -20F (-29C). It can be used upwards of 800F (427C), though the SA106 allowable stresses drop significantly above 400F (200C).
Note that A106 allows only seamless pipe manufacturing techniques. This means that you will never see ERW/HFIW or DSAW A106 pipes.
This ASTM specification is written so that the end user and the manufacturer can agree upon, and clearly understand, the properties and capabilities of the piping product being supplied. In contrast with national codes (like API, ASME or CSA), ASTM A106 is rarely stipulated by national or state-level legal requirements.
Rather than “re-invent the wheel”, ASME has recognized the widespread use of this product, and has adopted the A106 standard for use in pressure vessel (BPVC) and pressure piping (B31.X) applications. The details of this can be found in ASME Boiler and Pressure Vessel Code (BPVC) Section IIA, and is identified as SA106. Note that there may be minor exceptions in the SA version of ASTM standards, and the engineers, end users, purchasers and Manufacturer must comply. Note also that there is often a 5 to 10 year lag between the approved ASTM edition and the approved ASME edition. This means that there can be minor differences between the two specifications. Most engineers who spec SA106 product will also prefer to follow the requirements of the more recent ASTM version (which is usually also more strict), resulting in the common notation ASTM/ASME A/SA106 on the product documentation.
Note that there is a lower limit on manganese (Mn) in ASTM A106 of around 0.30% Mn, though you will typically see at least twice this much (around 0.60% Mn). For products that are hot rolled, it will be more common to see values of 0.80 to 1.20% Mn, as the increased alloying is necessary to attain the strength requirements of the standard. Because of these considerations, this product will commonly have a Mn/C ratio of 3 to 5 depending on the production method. Therefore, ASME B31.3 limits the low temp application of SA106 Grade B products to above -20F (-29C). That being said, for lower temp applications approaching -20F, many engineers may choose to spec specific low-temp products (such as SA333) for these applications.
A106 does not have its own table of pipe dimensions. Rather, like A333 and API 5L, it reverts to ASME B36.10 for the nominal pipe dimensions. Therefore, A106 pipe products are often multi-certified to similar ASTM A53, A333 and API 5L grades, where the requirements of all these specifications are met.
Note that for welding SA106 products, ASME BPVC Section IX considers SA106 GrB to be in the P1G1 alloy grouping (along with SA53 GrB, SA333 Gr6), while SA106 GrC is in the P1G2 alloy grouping.
Though A106 GrA exists in the standard, and most Manufacturer of seamless pipe claim to be able to make it, it is quite rare to see this grade stocked in North America, and it would be considered unusual to spec A106 GrA in a piping system.
It is interesting that hydrotesting is not required for this standard, provided that non-destructive testing has been performed, such as ultrasonics or eddy current inspection, and was determined to be capable of full-thickness inspection (i.e., it must have been volumetric NDT). When the hydrotesting option is chosen instead of NDT, the test pressure will be at 60% of the burst pressure of the pipe.
Size Range
⅛" to 36"
Basic Product Properties
A106 GrA30 ksi (205 MPa) min. YS48 ksi (330 MPa) min. UTS Not Impact Tested |
A106 GrB35 ksi (240 MPa) min. YS60 ksi (415 MPa) min. UTS Not Impact Tested |
A106 GrC40 ksi (275 MPa) min. YS70 ksi (485 MPa) min. UTS Not Impact Tested |