ASTM A106 Seamless Carbon Steel Pipe

I. Overview of ASTM A106 Seamless Carbon Steel Pipes

ASTM A106 seamless carbon steel pipes are industrial pipes used for high-temperature, high-pressure fluid transportation. They are widely used in boilers, steam pipelines, thermal systems, petrochemical industries, and high-temperature hot water pipelines.

These pipes are manufactured using seamless hot rolling or cold drawing processes, ensuring excellent pressure and heat resistance, and enabling safe operation under long-term high-temperature conditions.

II. Comparison of ASTM A106 Seamless Carbon Steel Pipe Grades

Grade	Chemical Composition Characteristics	Service Conditions	Yield Strength (MPa)	Tensile Strength (MPa)	Elongation (%)
Grade A	Low carbon content, low sulfur and phosphorus; general-purpose carbon steel	Low-pressure boilers, low-temperature fluid pipelines	≥ 205	330 – 430	≥ 30
Grade B	Moderate carbon content; balanced strength and toughness	Medium- to high-temperature steam pipelines, industrial boiler main steam lines	≥ 240	415 – 540	≥ 30
Grade C	High carbon content; high strength, slightly lower toughness	High-temperature, high-pressure steam pipelines, specialized high-pressure process lines	≥ 275	415 – 550	≥ 25

III. Chemical Composition Table for ASTM A106 Seamless Carbon Steel Pipes

Element	Grade A	Grade B	Grade C	Notes
Carbon C (%)	0.25 max	0.30 max	0.35 max	Higher carbon content increases strength but slightly reduces toughness
Manganese Mn (%)	0.29–1.06	0.29–1.06	0.29–1.06	Enhances strength and toughness
Sulfur S (%)	0.05 max	0.05 max	0.05 max	Controls brittleness and improves machinability
Phosphorus P (%)	0.05 max	0.05 max	0.05 max	Controls brittleness and ensures weldability
Silicon Si (%)	0.10–0.35	0.10–0.35	0.10–0.35	Improves strength and high-temperature resistance
Nickel Ni (%)	—	—	—	Generally not present
Chromium Cr (%)	—	—	—	Generally not present
Molybdenum Mo (%)	—	—	—	Generally not present

IV. ASTM A106 Seamless Carbon Steel Pipe Specifications and Dimensions Table

Inch	Outside Diameter OD (mm)	Wall Thickness (mm)	Theoretical Weight (kg/m)	Tolerance
1/2″	21.3	2.11 / 2.77 / 3.05 / 3.91 / 4.78 / 5.54 / 6.02 / 7.11 / 7.62 / 8.74 / 10.97	3.17 / 4.15 / 4.55 / 5.84 / 7.11 / 8.25 / 8.99 / 10.63 / 11.45 / 13.13 / 16.48	OD ±0.5 mm / WT ±12.5%
3/4″	26.7	2.11 / 2.77 / 3.05 / 3.91 / 4.78 / 5.54 / 6.02 / 7.11 / 7.62 / 8.74 / 10.97	3.85 / 4.93 / 5.39 / 6.91 / 8.41 / 9.74 / 10.61 / 12.56 / 13.47 / 15.49 / 19.45	OD ±0.5 mm / WT ±12.5%
1″	33.4	2.77 / 3.38 / 4.19 / 4.55 / 5.54 / 6.02 / 6.55 / 7.11 / 7.62 / 8.74 / 10.97	5.42 / 6.59 / 8.16 / 8.86 / 10.61 / 11.50 / 12.53 / 13.59 / 14.54 / 16.73 / 21.00	OD ±0.5 mm / WT ±12.5%
1 1/4″	42.2	3.38 / 4.19 / 4.55 / 4.85 / 5.54 / 6.02 / 6.55 / 7.11 / 7.62 / 8.74 / 10.97	7.22 / 8.83 / 9.62 / 10.23 / 11.60 / 12.53 / 13.63 / 14.74 / 15.72 / 18.08 / 22.67	OD ±0.5 mm / WT ±12.5%
1 1/2″	48.3	3.38 / 4.19 / 4.55 / 5.08 / 5.54 / 6.02 / 6.55 / 7.11 / 7.62 / 8.74 / 10.97	8.32 / 10.20 / 10.94 / 11.95 / 12.53 / 13.23 / 14.16 / 15.32 / 16.34 / 18.79 / 23.59	OD ±0.5 mm / WT ±12.5%
2″	60.3	3.91 / 4.85 / 5.54 / 6.02 / 6.55 / 7.11 / 7.62 / 8.74 / 10.97 / 12.70	11.13 / 13.84 / 15.57 / 16.91 / 17.53 / 18.85 / 19.80 / 22.77 / 28.62 / 33.06	OD ±0.5 mm / WT ±12.5%
2 1/2″	73.0	4.78 / 5.54 / 6.02 / 7.11 / 8.74 / 10.97 / 12.70	15.06 / 17.53 / 18.91 / 22.29 / 27.45 / 34.44 / 40.01	OD ±0.5 mm / WT ±12.5%
3″	88.9	5.49 / 6.55 / 7.11 / 8.74 / 10.97 / 12.70	19.31 / 23.01 / 24.96 / 30.50 / 37.55 / 43.41	OD ±0.5 mm / WT ±12.5%
4″	114.3	6.02 / 7.11 / 8.74 / 10.97 / 12.70 / 14.27 / 16.00	25.33 / 29.85 / 36.11 / 44.21 / 51.07 / 57.41 / 64.48	OD ±0.5 mm / WT ±12.5%
5″	141.3	6.55 / 8.18 / 10.97 / 12.70 / 14.27 / 16.00 / 18.26	32.52 / 40.35 / 54.09 / 62.64 / 70.37 / 78.93 / 90.15	OD ±0.5 mm / WT ±12.5%
6″	168.3	7.11 / 9.27 / 10.97 / 12.70 / 14.27 / 16.00 / 18.26	40.04 / 52.20 / 61.74 / 71.42 / 80.27 / 88.93 / 101.58	OD ±0.5 mm / WT ±12.5%
8″	219.1	8.18 / 11.13 / 12.70 / 14.27 / 16.00 / 18.26	57.41 / 77.93 / 88.93 / 99.99 / 112.13 / 128.01	OD ±0.5 mm / WT ±12.5%
10″	273.0	9.27 / 12.70 / 14.27 / 16.00 / 18.26 / 20.74	79.84 / 109.15 / 121.33 / 136.00 / 155.42 / 176.69	OD ±0.5 mm / WT ±12.5%
12″	323.9	10.31 / 14.27 / 16.00 / 18.26 / 20.74 / 23.81	103.21 / 143.00 / 156.00 / 177.93 / 202.13 / 231.87	OD ±0.5 mm / WT ±12.5%
14″	355.6	11.13 / 15.09 / 16.00 / 18.26 / 20.74 / 25.40	124.00 / 168.45 / 177.93 / 200.00 / 227.16 / 270.00	OD ±0.5 mm / WT ±12.5%
16″	406.4	12.70 / 16.00 / 18.26 / 20.74 / 23.81 / 25.40	153.48 / 193.00 / 220.00 / 250.00 / 287.00 / 310.00	OD ±0.5 mm / WT ±12.5%
18″	457.2	14.27 / 17.48 / 20.74 / 23.81 / 25.40	190.00 / 240.00 / 280.00 / 320.00 / 340.00	OD ±0.5 mm / WT ±12.5%
20″	508.0	15.09 / 18.26 / 20.74 / 23.81 / 25.40	230.00 / 280.00 / 320.00 / 360.00 / 380.00	OD ±0.5 mm / WT ±12.5%
24″	609.6	16.00 / 20.74 / 23.81 / 25.40	310.00 / 400.00 / 450.00 / 480.00	OD ±0.5 mm / WT ±12.5%

Notes:

1. Theoretical weight is an approximate value and may vary slightly depending on wall thickness and steel grade.
2. Tolerances: Outside diameter ±0.5 mm, wall thickness ±12.5%, conforming to ASTM A106 standard.
3. Wall thickness covers common grades such as SCH10 – SCH160 and XXS.
4. Length can be customized according to project requirements, generally 5.8–12 meters.

V. Selection Principles for ASTM A106 Seamless Carbon Steel Pipes

1. Selecting the Steel Grade Based on Working Temperature and Pressure
   Grade A: Suitable for low-pressure or low-temperature steam pipelines, an economical choice.
   Grade B: Most commonly used, suitable for medium-to-high temperature, high-pressure steam and industrial boiler pipelines.
   Grade C: For high-temperature and high-pressure conditions with strict pressure requirements, such as petrochemical high-temperature process pipelines or high-pressure steam pipelines.
   For high-temperature and high-pressure applications, it is recommended to choose ASTM A106 high-pressure seamless carbon steel pipes to ensure safety and durability.
2. Selecting the Wall Thickness Grade Based on Design Pressure
   SCH10 / SCH20 / SCH30: Used for low-pressure pipelines or auxiliary piping.
   SCH40 / SCH80: Commonly used for medium-pressure steam and boiler main lines.
   SCH160 / XXS: Used for high-pressure steam pipelines or special operating conditions.
   For special operating conditions, high-precision carbon steel pipes can be selected to ensure pressure resistance and welding performance.
3. Determining Specifications Based on Pipe Diameter and Length
   Pipe diameter range: 1/2″ – 24″ (21.3 mm – 609.6 mm).
   Lengths can be standard 5.8–12 m, or custom-made according to project requirements for easier construction.
4. Selecting End and Surface Treatment Based on Application Scenario
   Ends: Plain ends, flanged ends, or threaded ends are available to meet welding or on-site installation needs.
   Surface treatment: Black finish, painted anti-corrosion, or hot-dip galvanized, can be selected according to environmental and anti-corrosion requirements.
   For industrial boilers and high-temperature steam pipelines, hot-rolled seamless carbon steel pipes are recommended for their balanced pressure resistance and heat resistance.
5. Considering Transportation and Installation Conditions
   Packaging should be waterproof and moisture-proof; bundled wooden crate packaging is recommended for long-distance transportation or export projects.
   For high-temperature and high-pressure pipelines, on-site welding and installation space should be considered to ensure safety and reliability.
6. Third-Party Testing and Quality Certification
   For high-temperature and high-pressure pipelines, it is recommended to provide chemical composition, mechanical properties, and non-destructive testing (UT/RT) reports.
   Ensure that the pipe material meets ASTM A106 standards and project requirements to improve safety and reliability.

VI. ASTM A106 Seamless Carbon Steel Pipe Testing Standards Table

Inspection Item	Test Method / Standard	Requirement / Notes
Chemical Composition	Spectral Analysis / Chemical Analysis	Carbon (C), Manganese (Mn), Sulfur (S), Phosphorus (P), Silicon (Si) contents meet ASTM A106 standard; classified by Grade A/B/C
Yield Strength	Tensile Test	Grade A ≥ 205 MPa, Grade B ≥ 240 MPa, Grade C ≥ 275 MPa
Tensile Strength	Tensile Test	Grade A 330–430 MPa, Grade B 415–540 MPa, Grade C 415–550 MPa
Elongation	Tensile Test	Grade A/B ≥ 30%, Grade C ≥ 25%
Outside Diameter Tolerance	Dimensional Measurement	±0.5 mm
Wall Thickness Tolerance	Dimensional Measurement	±12.5%
Length & Straightness	Dimensional Measurement	Length 5.8–12 m, cut-to-length available; straightness and roundness meet standard
Nondestructive Testing (NDT)	Ultrasonic (UT) / Radiographic (RT)	Checks for cracks, porosity, and other defects; 100% testing recommended for high-pressure or export pipes
Bend / Flattening Test	Bend Test / Flattening Test	Checks pipe toughness and weldability
Coating / Corrosion Protection	Coating Thickness Measurement / Adhesion Test	Rust-preventive oil, hot-dip galvanizing, or coating should be uniform and well-adhered
Third-Party Inspection	SGS / BV / TÜV, etc.	Provides chemical composition, mechanical properties, dimensions, NDT, and Material Test Certificate (MTC)

VII. ASTM A106 Seamless Carbon Steel Pipe FAQ

Q1: What temperatures and pressures can ASTM A106 seamless carbon steel pipes withstand?

A1:
ASTM A106 seamless carbon steel pipes are designed for medium to high temperature and high-pressure applications. Grade B is commonly used in steam pipelines and main pipelines for industrial boilers, with a maximum operating temperature of up to 450°C. High-pressure pipelines can withstand steam pressures of tens of kilograms per square centimeter.
When selecting pipe materials, the pressure, temperature, and wall thickness grade (SCH40 / SCH80 / SCH160) should be matched to the operating conditions.

Q2: How to choose between different steel grades (Grade A/B/C)?

A2:
Grade A: Suitable for low-pressure, low-temperature pipelines, and is cost-effective.
Grade B: The most commonly used, suitable for medium to high-temperature steam and industrial boiler pipelines.
Grade C: Suitable for high-temperature and high-pressure applications, such as petrochemical or high-pressure steam pipelines.
When selecting the steel grade, a comprehensive consideration of temperature, pressure, and service life should be taken into account.

Q3: How to determine the pipe size and wall thickness?

A3:
ASTM A106 seamless carbon steel pipes have a diameter range of 1/2″–24″ (21.3–609.6 mm), with wall thickness grades SCH10–SCH160 / XXS available.
When selecting the wall thickness, it is necessary to ensure the pressure safety of the pipeline based on the design pressure and media type, while avoiding material waste.

Q4: Is third-party testing or quality inspection report required?

A4:
For high-temperature and high-pressure pipelines or export projects, it is recommended to provide third-party testing (such as SGS, BV, TÜV) reports, including chemical composition, mechanical properties, dimensions, non-destructive testing (UT/RT), and material certificates (MTC), to ensure that the pipe material meets the ASTM A106 standard and project safety requirements.

Q5: Do the pipes support custom lengths and specifications?

A5:
ASTM A106 seamless carbon steel pipes can be manufactured to specific lengths according to project requirements, typically 5.8–12 meters. They can also be processed into specific lengths, and the ends can be plain, flanged, or threaded, facilitating welding and on-site installation and improving construction efficiency.

Q6: How is the corrosion resistance and durability of the pipes ensured?

A6:
The pipes can be supplied with their original black finish or treated with anti-corrosion coatings (anti-rust oil, hot-dip galvanizing). Hot-rolled seamless carbon steel pipes have good high-temperature, pressure, and corrosion resistance. Choosing the appropriate surface treatment based on working conditions can extend the service life of the pipes and reduce maintenance costs.