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Carbon Steel Pipes

Material Grade: A/SA-179, A/SA-192, A/SA-214, P235GH, A/SA-106 GR. B, A/SA-209 T1, A/SA-210 A1, A/SA-333GR.1, any other

Specification: Outside Diameter from 10.3 to 1500 mm. Wall Thickness from 1 to 60 mm

Coatings: Depending on client requests, 3PE, FBE, zinc coating, etc.

Status: New or inventory

Place Of Origin: China

Certification: ISO, API, EN 10204 3.1/3.2, ABS, BV, etc.

Packaging: Seaworthy packing

Port: Shanghai Port or any other

Shipping Method: Sea, Air, Land

Incoterm: FOB, CFR, CIF, EXW, FCA, DAP

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What is a Carbon Steel Pipe

A carbon steel pipe is a type of steel piping primarily composed of iron and carbon, with trace amounts of other elements such as manganese, silicon, and copper. The carbon content typically ranges between 0.05% and 2.0%, which directly influences the pipe’s strength, hardness, and ductility. Unlike stainless steel pipes or alloy steel pipes, carbon steel pipes lack significant amounts of chromium or nickel, making them more cost-effective but less resistant to corrosion.

Types of Carbon Steel Pipes

  1. Based on material grades
    • ‌Low Carbon Steel Pipe/Mild Steel Pipe‌: ASTM A53 Grade A/B (carbon content ≤0.3%).
    • Medium Carbon Steel Pipe‌: Higher strength for machinery (carbon content 0.3–0.6%).
    • High Carbon Steel Pipe‌: Rare, used in specialized tools or wear-resistant components.
  2. Based on manufacturing process
    • seamless carbon steel pipe: ideal for high-pressure applications
    • welding carbon steel pipe: ERW carbon steel pipes, LSAW carbon steel pipes, SSAW carbon steel pipes, suitable for low-to-medium pressure uses.
  3. Based on shape
    • carbon steel square pipe
    • carbon steel round pipe
  4. Based on surface treatment
    • Galvanized Carbon Steel Pipe‌: Coated with zinc to resist corrosion; common in plumbing and fencing (e.g., ASTM A53).
    • ‌Black Steel Pipe‌: Uncoated, used for gas/oil transportation or structural purposes.

What are the Advantages of Carbon Steel Pipes

  1. Cost-Effectiveness
    • ‌Lower material cost‌: 30-50% cheaper than stainless steel/alloy pipes, ideal for large-scale infrastructure (e.g., urban water supply systems).
    • ‌Reduced fabrication expenses‌: Easily welded or machined without specialized equipment.
  2. High Strength-to-Weight Ratio
    • Tensile strength ranges from ‌370 MPa (low-carbon) to 630 MPa (high-carbon)‌, suitable for structural supports (e.g., building frameworks).
    • Maintains integrity under cyclic loads (e.g., hydraulic systems in machinery).
  3. Versatile Fabrication
    • Compatible with hot rolling, cold drawing, and spiral welding processes.
    • Seamless variants (e.g., ASTM A106 Grade B) withstand pressures up to ‌32 MPa‌.
  4. Recyclability
    • Fully recyclable, aligning with sustainability goals in construction and manufacturing.

What are the Disadvantages of Carbon Steel Pipes

  1. Poor Corrosion Resistance
    • Prone to rust in humid or chemical environments (e.g., coastal pipelines) without coatings like galvanization.
    • Annual corrosion rate in untreated pipes: ‌0.1–0.2 mm/year‌ in moderate climates.
  2. Temperature Sensitivity
    • ‌Long-term use limit‌: ≤450°C; beyond this, oxidation and creep deformation accelerate.
    • Unsuitable for cryogenic applications (e.g., LNG transport) due to brittleness below ‌-29°C‌.
  3. Weight Constraints
    • Higher density (~7.85 g/cm³) compared to aluminum/composite pipes, increasing transport/installation costs.
  4. Maintenance Demands
    • Requires periodic inspections and protective coatings in corrosive environments (e.g., chemical plants).

How are Carbon Steel Pipes made

Carbon steel pipes are produced through two primary methods: ‌seamless‌ (hot-rolled or cold-drawn) and ‌welded‌ (with seams). Below is a detailed breakdown of the key steps and variations:

  1. Material Selection

    • Carbon steel billets or coils are chosen, with carbon content (0.1–0.3%) and alloying elements (Mn, Si) tailored for strength and weldability.

  2. Forming Techniques

    • Seamless‌:
      • Heated billets pierced via rotary/press methods, then elongated through extrusion or cold drawing.
    • Welded‌:
      • ERW‌: Coils shaped into tubes and fused using electric resistance welding.
      • SAW‌: Steel plates rolled and welded longitudinally (LSAW) or spirally (SSAW) under submerged arc flux.

  3. Heat Treatment

    • Processes like annealing, normalizing, or quenching/tempering optimize mechanical properties and eliminate residual stresses.

  4. Quality Testing

    • Hydrostatic pressure tests, non-destructive inspections (ultrasonic, X-ray), and dimensional accuracy checks.

  5. Surface Protection

    • Coatings (galvanizing, epoxy, FBE) or sandblasting applied to resist corrosion and abrasion.

  6. Final Certification

    • Marked with compliance to standards (ASTM, ASME) and critical data (grade, thickness, test results).

Applications of Carbon Steel Pipes

  1. Oil & Gas‌: Transport crude oil, gas, and steam in high-pressure pipelines, refineries, and offshore rigs.
  2. Construction‌: Structural frameworks (beams, columns), water supply lines, and HVAC systems.
  3. Automotive‌: Exhaust systems, hydraulic components, and fuel lines for durability under stress.
  4. Power Plants‌: Boiler tubes and steam conduits in coal, nuclear, and geothermal energy systems.
  5. Agriculture‌: Irrigation sprinklers, drainage networks, and machinery parts resistant to soil corrosion.
  6. Mining‌: Slurry transport, compressed air systems, and abrasive material handling.
  7. Emerging Uses‌: Hydrogen pipelines for green energy and carbon capture infrastructure.

How to Select Carbon Steel Pipes Correctly

  1. Define Application Requirements

    • Pressure & Temperature‌: Choose seamless pipes for high-pressure systems (≥72 bar) or extreme temperatures; welded pipes (ERW/SAW) suffice for low-pressure utilities.
    • Fluid Type‌: Acidic or corrosive fluids demand coated pipes (FBE, 3LPE) or higher-grade alloys (e.g., 16Mn).

  2. Material & Grade Selection

    • Carbon Content‌: Opt for low-carbon steel (0.1–0.3% C) for weldability and ductility; medium/high-carbon grades prioritize strength.
    • Compliance‌: Ensure alignment with standards (e.g., ASTM A53, API 5L PSL1/PSL2) for structural integrity.

  3. Manufacturing Method

    • Seamless Pipes‌: Ideal for critical applications (oil/gas pipelines) due to uniform strength; cold-drawn variants offer precision for machinery parts.
    • Welded Pipes‌:
      • ERW‌: Cost-effective for water/gas distribution.
      • LSAW/SSAW‌: Suitable for large diameters (219.1–3020mm) in infrastructure projects.

  4. Surface Treatment

    • Apply galvanizing or epoxy coatings to prevent corrosion in humid/saline environments.

  5. Supplier Verification

    • Confirm certifications (e.g., ISO 3183), hydrostatic/ultrasonic test reports, and dimensional tolerances.

Our Carbon Steel Pipes Dimensions/Sizes and Carbon Steel Pipe Material

Outside Diameter10.3 to 1500 mm (1/8” to 60” NPS)
Wall Thickness1 to 60 mm (0.04” to 2.37”)
LengthCustomized
Type of PipesSeamless or welded
Type of Endplain Ends, beveled Ends, threaded Ends
Outside CoatingFBE, 3PE, Polyurethane, Hot-Dip Galvanizing, Electroplated Zinc, etc.
Material GradeA/SA-106GR. A, GR. B, GR. C
A/SA-178GR. A, GR. C, GR. D
A/SA-209T1, T1A, T1B
A/SA-210A1, C
A/SA-53GR. A, GR. B
A/SA-333GR.1, GR.3, GR.6, GR.7, GR.8
A/SA-334GR.1, GR.3, GR.6, GR.7, GR.8
A/SA-513MT1010, MT1015, MT1020
A/SA-556A2, B2, C2
A/SA-179, A/SA-192, A/SA-214, P235GH, P265GH, any other

For other customized requirements, please contact us.

What is the Price of Carbon Steel Pipes

Please contact our sales manager Allen@sanesteel.com

Why Choose Us

  • a 16-year carbon steel pipe supplier. We are experts.
  • solutions for all your needs
  • the highest product quality
  • the low lead times
  • excellent customer service

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