ASTM A53/ASTM A500 Hollow Sections Square And Rectangular Section Shaped Pipes

Product Details: ERW ASTM A53/ASTM A500 Hollow Sections Square and rectangular section shaped pipes;(for more stock prices as attached, please contact us!)

1. GB/T3091-2015 2. GB/T13793-2016 3. GB/T9711-2017
4.JIS G3444 5. JIS G3452 6.ASTM A53 7. ASTM A500 8.ASTM A795
9. EN BS1387-85 10.EN10217-1 11. EN10217-2 12. EN10219:2 13.EN10210.2

*Diameter tolerance: according to standard;
*Packing: bundle with strip,

Usage:
Suitable for general use low pressure liquid transfer, machine building and structural purposes
Brand new goods with high quality , but the overseas clients canceled the orders;
Product Picture:

Project subject: LSAW steel pipes project in Jordan.

Project introduction: Supply of Reclamation piping for Petra and Rum dredgers.

Specification: 1,340 ton, ASTM A53 GR.B, LSAW carbon Steel pipe 24''* SCH30 (610*14.27*11.8mm), flange and bolts.

by Admin on 2022-10-30
Project subject: Tubing project in Trinidad.

Project introduction: Supply tubing for oil well foundation
Specification: 850 ton API 5CT N80 TUBING 2 7/8" 6.5lb/ft R2

by Admin on 2023-3-10
Project subject: Oil Gas Pipeline project in UAE.
Project introduction: ERW steel pipes with 3LPE external coating for Oil & Gas transportation pipeline.
Specification: 1,900 tons ERW API 5L X60 PSL2, 323.85*8.4*11,800mm

If you have any inquiry or questions about steel pipes, welcome to contact me for more details.

What is ASTM A53 material equivalent to?

ASTM A53-A is equivalent to 10# steel or GB8163 standard material in China. ASTM A53-B is equivalent to 20# steel or GB8163 standard material in China. Alternatively, ASTM A53 Grade A corresponds to Chinese domestic material Q235A; ASTM A53 Grade B corresponds to Chinese domestic material Q235B.

What is the difference between ASTM A53 and ASTM A500?

A500 is a standard for cold-formed welded structural steel tubing, while A53 is for pipes used in fluid and gas transport. A500 is generally stronger and has tighter tolerances, making it suitable for structural applications like building columns, whereas A53 is suitable for lower-pressure, non-structural uses and comes with coatings and hydrostatic testing not needed for A500.

Note 1: ASTM A500 and A53 Chemical Composition Comparison

ASTM A500 and ASTM A53 chemical composition of carbon, manganese, phosphorus, and sulfur element requirements are not very different, mainly copper, nickel, chromium, molybdenum, and vanadium elements content of the difference.

The range of applications determines this: ASTM A500 is mainly used in structural applications, focusing on the strength of the tube; ASTM A53 is used in mechanical and pressure applications, conveying steam, water, air, natural gas, etc. Control of copper, nickel, chromium, molybdenum, and vanadium elements improves the corrosion and high-temperature resistance of the tube.

Note 2: ASTM A500 and A53 Mechanical Properties Comparison

In summary, the choice between ASTM A500 and ASTM A53 depends largely on the intended application.

ASTM A500 is ideal for structural applications where higher strength and load-bearing capacity are crucial. Its enhanced mechanical properties make it suitable for construction and engineering projects requiring robust support. On the other hand, ASTM A53 is better suited for mechanical and pressure applications, such as transporting gases and liquids, where its composition ensures adequate performance under varying temperatures and pressures. Understanding these distinctions helps in selecting the appropriate material to ensure safety, efficiency, and longevity in your projects.

What is the difference between ASTM A36 and A53?

ASTM A53 is suitable for welding, threading, and bending, making it a versatile steel grade for various applications. A36, on the other hand, is a carbon steel plate commonly used for structural applications. This steel grade is particularly well-suited for construction projects thanks to its robustness and durability.

What is ASTM A53 used for?

ASTM A53 and ASME SA53 is intended for mechanical and pressure applications and is also acceptable for ordinary uses in steam, water, gas and air lines. It is suitable for welding and for forming operations involving coiling, bending, and flanging, subject to certain qualifications.

Is the ASTM A53 galvanized?

Galvanized Steel ASTM A53 Schedule 40 Non-Threaded Plain End Pipe delivers reliable performance for various plumbing and construction applications. This robust tubing features a protective zinc coating that helps resist rust and extends the pipe's service life.

Is A500 better than A53?

Conclusion: A500 Pipe offers a higher yield strength and tensile strength than A53 pipe, making it ideal for applications requiring the highest quality tubing available without the need for hydrostatic testing.

Is A53 pipe schedule 40?

ASTM A53 Grade B ERW Pipe | Schedule 40 SA53 GRB Seamless / Welded Pipe.

Is A500 the same as A36?

One main difference between ASTM A500 and ASTM A36 is the shape in which each type of hot rolled steel is available. As previously mentioned, A36 is available in round bar, rectangular bar, square bar, channel, angle, plate, tread plate, round tube, and shafting. A500, on the other hand, is solely used for tubing.

Are A53 and A106 the same?

A53 pipe is best suited for transport of air, water, steam and oil in low- and medium pressure applications across the industrial spectrum. It's also commonly used as structural steel. A106 pipe is formulated specifically for high-temperature and high-pressure service, usually in power generation applications.

Can an A53 pipe be seamless?

Everything from their chemical makeup to the manufacturing process is very similar. However, the most defining difference is that A106 steel pipe must be seamless and A53 pipe can be both welded and seamless.

What is the pressure rating for ASTM A53?

The minimum test pressure of A53 steel pipe is 2,500 psi for a nominal pipe size (NPS) of 3 and 2,800 psi for an NPS above 3. The bursting pressure for an STD A53 pipe with an NPS of 3 is 5,925 psi.

What is the thickness tolerance of ASTM A53?

12.5%

Tolerance in wall thickness as per ASTM A53

At any given point the thickness of the pipe should not be 12.5% under the nominal wall thickness as specified.

What is the difference between A53 and A53 Grade B?

ASTM Grade B has higher mechanical requirements, different chemical composition, and higher test pressures than Grade A. Grade B meets and exceeds all of the properties of Grade A.

What is the difference between Grade A and B pipes?

ASTM A53 Grade A pipes are primarily used for plumbing and water supply systems. In contrast, Grade B pipes suit high-pressure and high-temperature applications, such as steam and air pipelines, oil and gas transportation, and structural supports.

Is A53 pipe coated?

If ordered galvanized, A53 seamless pipe must be coated inside and out via the hot-dip process. Zinc used for galvanized coatings must conform to Specification B6.

Is A106 better than A53?

Differently with ASTM A53 B, ASTM A106 B has Si min 0.1%, which A53 B has 0, so A106 B have better heat resistance than A53 B, since Si improve the heat resistance. A106 Grade B has low sulfur and phosphorus than A53 B, this is better.

ASTM A53 Grade B chemical properties content C≤0.30%, Mn≤1.2%, P≤0.05%, S≤0.045%, Cr≤0.40, Cu≤0.40, Ni≤0.40, Mo≤0.40, V≤0.08.
ASTM A53 B mechanical strength is the same with ASTM A106 B steel pipe, Tensile strength maximum 415 Mpa, Yield strength maximum 240 Mpa.
Elongation: For A53 pipe there are 2 methods to calculate elongation.
A: Use equation: e = 625 000 [1940] A^0.2/U^0.9
B: See ASTM A53 elongation value table X4.1 or table X4.2 for different specimen area.

Differences on mechanical properties

ASTM A53 Grade B mechanical strength is same with ASTM A106 Grade B pipe.

Chemical Composition Differences Among A106 B, A53 B, and APl 5L B.

As ASTM A106 B is the common use, the chemical here we listed is C≤0.3%, Mn 0.29-1.06%, P≤0.035, S≤0.035%, Si>0.1, Cr≤0.40, Cu≤0.40, Ni≤0.40, Mo≤0.40, V≤0.08.

Differently with ASTM A53 B, ASTM A106 B has Si min 0.1%, which A53 B has 0, so A106 B have better heat resistance than A53 B, since Si improve the heat resistance.

A106 Grade B has low sulfur and phosphorus than A53 B, this is better.

What is the difference between ASTM A53 Grade A and B?

The main differences between ASTM A53 Grade A and Grade B pipes are their mechanical strength and chemical composition, with Grade B being stronger due to higher carbon and manganese content. Grade A has a minimum yield strength of 205 MPa (30 ksi) and is more malleable, making it suitable for low-pressure applications and lighter structural use. Grade B has a minimum yield strength of 240 MPa (35

ksi) and is better for high-stress applications.