Carbon steel pipe is widely used in the world of manufacturing as they have high end durability. It is one of the preferred pipes when it comes to stamina and cost. Steel tubes of different sizes and shapes can be created with use of modern technology.
How to use steel tubing and use carbon steel pipe
If you are interested in using carbon steel pipe, there are all different types of reasons why you will want to use this.
Heavy Wall Seamless Carbon steel Pipe
eamless Steel Pipe withstands pressure better than other types of pipe, which is why it is the favorable choice for oil and gas transportation.
A106 Carbon Steel Pipe & Tube
ASTM A106 pipe (also covered in ASME specifications as S/A 106) is the standard specification for seamless carbon steel pipe for high-temperature service.
Hot rolled steel pipes
We have a team of experienced professionals with years of experience in manufacturing.
DIN 1629 carbon seamless steel pipes
DIN 1629 is the standard specifies the Seamless Circular Tubes of Non Alloys Steels with Special Quality Requirements.
Higher carbon steels
which can successfully undergo heat-treatment have a carbon content in the range of 0.30–1.70% by weight.
Ultra-high carbon steel
Ultra-high carbon steel contains between 1 and 2 percent carbon.
Medium Carbon Steel
Medium Carbon Steel contains between 0.25 -0.7% carbon and used for machine components requiring high strength and good fatigue resistance.
ASTM A350 LF2 Carbon Steel
ASTM A350-LF2 Temperature range (-50 to 800 deg. F) Where corrosion resistance is not important.
The Effect of Welding on High Carbon Steel
High-carbon steels are decidedly more difficult to weld than low- or medium-carbon steels. However, a variety of measures are available to ensure a strong weld.
Difference between forged steel and carbon steel?
Forged steel has been subject to high temperature and pressure forcing the crystal structure closer together and increasing tensile strength (used in high pressure gas compressors).
Difference between carbon steel and Killed carbon steel
There is a difference between regular carbon steel and killed carbon steel.
How to use steel tubing and use carbon steel pipe
If you are interested in using carbon steel pipe, there are all different types of reasons why you will want to use this.
Killed Carbon Steel
Killed Carbon Steel is a process of deoxidation that is performed during the steel making process.
Designation of Carbon Steel
The information and data presented herein are typical or average values and are not a guarantee of maximum or minimum values.
Carbon Steel Coding
The AISI and the SAE have designed a four digit code to assign to all carbon and alloy steels to show its standard wrought steel composition.
- Silicon-Manganese Steel, resulfurized and rephosphorized Carbon Steels
- Pressure and Temperature Ratings of ASTM A106 Grade B Carbon Steel Pipes
Which difference betweem astm a53 and astm a106
Pressure (psig) and temperature (deg F) ratings of ASTM A106 Grade B carbon steel pipes – temperatures ranging 100 oF – 750 oF
High Carbon Steel Properties
High Carbon Steel is one of the most important construction metals in the world.
What is Carbon steel?
Carbon steel is steel in which the main interstitial alloying constituent is carbon in the range of 0.12–2.0%.
The usage of Carbon steel pipe
Carbon steel pipe is widely used in the world of manufacturing as they have high end durability. It is one of the preferred pipes when it comes to stamina and cost. Steel tubes of different sizes and shapes can be created with use of modern technology.
Available Specification
API SPEC 5CT – Specification 5CT/ISO 11960, Specification for Casing and Tubing, Eighth Edition, Petroleum and natural gas industries-Steel pipes for use as casing or tubing for wells.
| Product name | Executive standard | Dimension (mm) | Steel code/ Steel grade |
| Casting | API 5CT | 114~219 x 5.2~22.2 | J55, K55, N80, L80, P110 |
| Tubing | API 5CT | 48.3~114.3 x 3.2~16 | J55, K55, N80, L80, H40 |
API SPEC 5L -Specifies requirements for the manufacture of two product specification levels (PSL 1 and PSL 2) of seamless and welded steel pipes for use in pipeline transportation systems in the petroleum and natural gas industries.
| Product name | Executive standard | Dimension (mm) | Steel code/ Steel grade |
| Casting | API 5L | 10.3~1200 x1.0~120 | A, B, X42, X46, X52, X60, X70, X80, PSL1 / PSL2 |
ASTM / ASME – American Society for Testing and Materials / American Society of Mechanical Engineers
| Product name | Executive standard | Dimension (mm) | Steel code/ Steel grade |
| Black and Hot-dipped Zinc-coated Steel Pipes Seamless | ASTM A53 | 0.3~1200 x 1.0~150 | GR.A, GR.B, GR.C |
| Seamless Carbon Steel for High Temperature Service | ASTM A106 | 10.3~1200 x 1.0~150 | GR.B, GR.C |
| Seamless Cold-drawn Low-Carbon Steel Heat-Exchanger and Condenser Tubes | ASTM A179 | 10.3~426 x 1.0~36 | Low Carbon Steel |
| Seamless Carbon Steel Boiler Tubes for High Pressure | ASTM A192 | 10.3~426 x 1.0~36 | Low Carbon Steel |
| Seamless Cold-drawn Intermediate Alloy Steel Heat-exchanger and Condenser Tubes | ASTM A199 | 10.3~426 x 1.0~36 | T5, T22 |
| Seamless Medium-carbon Steel Boiler and Superheater Tubes | ASTM A210 | 10.3~426 x 1.0~36 | A1, C |
| Seamless Ferritic and Austenitic Alloy Steel Boiler, Superheater and Heat-exchanger Tubes | ASTM A213 | 10.3~426 x 1.0~36 | T5, T9, T11, T12, T22, T91 |
| Seamless Carbon and Alloy Steel for Mechanical Tubing | ASTM A333 | 1/4″~42″ x SCH20~XXS | Gr1, Gr3, Gr6 |
| Seamless and Welded Carbon Steel Pipes and Alloy Steel Pipes for Low Temperature Use | ASTM A334 | 1/4″~4″ x SCH20~SCH80 | Gr1, Gr6 |
| Seamless Cold-drawn Carbon Steel Feedwater Heater Tubes | ASTM A556 | 10.3~426 x 1.0~36 | A2, B2 |
GS
|
Product Name
|
Executive Standard
|
Dimension (mm)
|
Steel Code / Steel Grade
|
|---|---|---|---|
|
Seamless Steel Tubes for Elevated Temperature
|
DIN 17175
|
10~762 x 1.0~120
|
St35.8,St45.8, 10CrMo910, 15Mo3, 13CrMo44, STPL340, STB410, STB510, WB36
|
|
Seamless Steel Tubes
|
DIN 1629 / DIN 2391
|
13.5~762 x 1.8~120
|
St37.0, St44.0, St52.0, St52.3
|
|
Seamless Steel Tubes
|
DIN 2440
|
13.5~165.1 x 1.8~4.85
|
St33.2
|
|
Seamless Steel Pipes for Structural Purpose
|
DIN 2393
|
16~426 x 1.0~36
|
RSt34-2, RSt37-2, RSt44-2,St52
|
GS/ DIN– German Institute for Standardization, develops norms and standards as a service to industry, the state and society as a whole.
| Product name | Executive standard | Dimension (mm) | Steel code/ Steel grade |
| Seamless Steel Tubes for Elevated Temperature | DIN 17175 | 10~762 x 1.0~120 | St35.8,St45.8, 10CrMo910, 15Mo3, 13CrMo44, STPL340, STB410, STB510, WB36 |
| Seamless Steel Tubes | DIN 1629 | 13.5~762 x 1.8~120 | St37.0, St44.0, St52.0 |
| Seamless Precision Steel Tube | DIN 2391 | 4.0~60.0 x 0.5~8 | St35, St45, St52 |
| Seamless Steel Tubes | DIN 2440 | 13.5~165.1 x 1.8~4.85 | St33.2 |
The steel with slight quantity of elements other than carbon, silicon, sulphur and manganeses is called carbon steel. These are the alloyed iron with carbon as main constituent. The amount of carbon content in the steel pipe determines its hardness and strength but on other hand it makes the steel more ductile.