IPDB › China Industry › Industrial Equipment & Components
China, Chinese Small Diameter ASTM A53 Carbon Steel Pipe Hot Rolled Grade B Tube1 Industrial Products Supplier Manufacturer Details, price list catalog:
China Industrial Products Supplier Manufacturer List Catalog
Industrial Pipeline PipesCarbon Steel PipeCarbon Steel PipeHot Rolled Tube
EZ Steel Industrial Co., Ltd.
Preview:
Product Description Product Description CategoryASTM A53ASTM A106Standard ScopeGeneral-purpose carbon steel pipe for structural and low-pressure fluid transport.Seamless carbon steel pipe for high-temperature service (e.g., boilers, refineries).Material Types- Type F: Furnace-welded (continuous weld)- Type E: Electric Resistance Welded (ERW)- Type S: Seamless (SMLS)Seamless (SMLS) only - No welded variants.GradesGrade A (lower strength), Grade B (higher strength)Grade A, Grade B, Grade C (ascending strength levels)Chemical CompositionGrade B:- C: ≤0.30%- Mn: ≤1.20%- S: ≤0.045%- P: ≤0.045%Grade B:- C: ≤0.30%- Mn: 0.29-1.06%- S: ≤0.035%- P: ≤0.035%Tensile StrengthGrade B: ≥415 MPa (60,200 psi)Grade B: ≥415 MPa (60,200 psi)Grade C: ≥485 MPa (70,300 psi)Yield StrengthGrade B: ≥240 MPa (35,000 psi)Grade B: ≥240 MPa (35,000 psi)Grade C: ≥275 MPa (40,000 psi)Elongation (%)Grade B: ≥23% (50 mm gauge)Grade B: ≥30% (50 mm gauge)Manufacturing Process- Type F/E: Welded- Type S: Hot-rolled seamlessSeamless (hot-rolled or cold-drawn, followed by heat treatment if required).Heat TreatmentType S may be normalized or stress-relieved. Welded types are as-formed.Typically normalized, stress-relieved, or annealed for high-temperature stability.Testing Requirements- Hydrostatic or nondestructive testing (NDT)- Flattening test (welded types).- Hydrostatic testing- NDT (ultrasonic, eddy current)- Flattening test.Temperature RangeSuitable for ambient to moderate temperatures.Designed for high-temperature service (up to 750°F/400°C for Grade B).Key Applications- Plumbing- Structural supports- Low-pressure water/gas lines- High-temperature steam lines- Boilers- Petrochemical refineriesAdvantages- Cost-effective for general use- Available in welded and seamless- Superior high-temperature strength- Seamless integrity for critical servicesLimitations- Welded types not ideal for high pressure/temperature- Higher cost than A53- Limited to seamless manufacturing Key Differences SummaryPurpose:A53: General structural and low-pressure fluid transport.A106: High-temperature and high-pressure applications (e.g., steam lines).Material Types:A53 includes welded (Type F, E) and seamless (Type S) options.A106 is seamless only, ensuring reliability under thermal stress.Temperature Tolerance:A53 is not suitable for sustained high temperatures.A106 Grade B handles temperatures up to 750°F (400°C).Grades:A106 includes Grade C for higher strength compared to A53's Grade B. 1. Standard Compliance1.1 ASTM A53ASTM A53 is a well - recognized standard issued by the American Society for Testing and Materials. This standard covers both welded and seamless carbon steel pipes. It sets requirements for a wide range of properties, including dimensions, tolerances, and mechanical and chemical characteristics. For welded pipes, different welding processes are specified, and for seamless pipes, the manufacturing methods are clearly defined. Pipes compliant with ASTM A53 are suitable for various applications, from general - purpose piping to those in the transportation of fluids under certain pressure conditions.1.2 ASTM A106ASTM A106 focuses specifically on seamless carbon steel pipes for high - temperature service. It has strict requirements regarding the chemical composition to ensure the pipes can maintain their mechanical properties at elevated temperatures. The standard also details the heat treatment processes to be followed during manufacturing. Pipes conforming to ASTM A106 are designed to operate in environments where they are exposed to high - temperature fluids, such as in power plants and refineries.2. Material Composition2.1 Carbon SteelThe pipes are made of carbon steel, which is an alloy mainly composed of iron and carbon. In ASTM A53 and A106 carbon steel pipes, the carbon content typically ranges from approximately 0.15% to 0.30%. This carbon content provides a balance between strength and formability. As carbon atoms dissolve in the iron lattice, they form carbide structures, which enhance the steel's strength. However, an increase in carbon content can also lead to a reduction in ductility and weldability to some extent.2.2 Alloying ElementsIn addition to carbon, other alloying elements are present. Manganese is commonly added, usually in amounts up to around 1.20%. Manganese plays a crucial role in improving the hardenability of the steel. It also acts as a deoxidizer during the manufacturing process, removing oxygen and reducing the formation of harmful oxides. This element enhances the strength and toughness of the steel, making the pipes more resistant to mechanical stresses. Small amounts of silicon are often present, typically up to about 0.35%, which can improve the steel's strength and oxidation resistance. The levels of sulfur and phosphorus are strictly controlled. High sulfur content can cause embrittlement, especially during welding, and phosphorus can reduce the ductility of the steel. Therefore, their maximum allowable levels are usually set at 0.045% or lower.3. Manufacturing Process3.1 Seamless Manufacturing (for A106 and some A53 pipes)For seamless pipes under ASTM A106 and a significant portion of ASTM A53, the manufacturing process starts with a solid billet of carbon steel. The billet is heated to a high temperature, typically in the range of 1,200 - 1,300°C. It is then pierced with a mandrel to create a hollow tube. After piercing, the tube is further processed through hot - rolling or extrusion. Hot - rolling involves passing the tube through a series of rolls, which gradually shape it to the desired diameter and wall thickness. Extrusion, on the other hand, forces the hot billet through a die to form the tube. The seamless nature of these pipes eliminates the potential weak points associated with welded seams, such as weld defects, differences in material properties at the weld interface, and susceptibility to corrosion at the welds. This makes them highly suitable for applications where high - pressure and high - integrity are required, like in high - temperature and high - pressure pipelines.3.2 Welding Process (for welded A53 pipes)For welded pipes under ASTM A53, there are several common welding methods. Electric resistance welding (ERW) is widely used. In this process, an electric current is passed through the edges of the steel strip as it is formed into a tube shape. The heat generated by the resistance to the electric current melts the edges, and they are then pressed together to form a weld. Another method is submerged arc welding (SAW). In SAW, an arc is struck between a consumable electrode and the workpiece, and the arc is submerged in a blanket of granular flux. This flux protects the weld area from oxidation and provides additional filler material. After welding, the pipes may undergo heat treatment to relieve internal stresses caused by the welding process and improve the overall mechanical properties.4. Mechanical Properties4.1 Tensile StrengthASTM A53 A106 carbon steel pipes exhibit a range of tensile strengths depending on the grade and manufacturing process. For example, ASTM A53 Grade B seamless pipes typically have a minimum tensile strength of 415 MPa, while ASTM A106 Grade B pipes may have a minimum tensile strength of around 485 MPa. High tensile strength is essential for the pipes to withstand the internal pressure exerted by the fluids flowing through them. In a pipeline, the pressure can be substantial, and the pipe must be able to resist bursting under these conditions.4.2 Yield StrengthThe yield strength of these pipes is a critical property. It represents the stress level at which the pipe material starts to deform plastically. ASTM A53 Grade B seamless pipes usually have a minimum yield strength of 240 MPa, and ASTM A106 Grade B pipes may have a minimum yield strength of 275 MPa. Knowing the yield strength is crucial for designing pipelines. If the operating pressure in a pipeline causes a stress in the pipe that exceeds its yield strength, permanent deformation will occur, which could lead to pipeline failure.4.3 DuctilityDespite the need for strength, ASTM A53 A106 carbon steel pipes also require a certain degree of ductility. Ductility is measured by parameters such as elongation and reduction of area. The pipes should be able to deform to a reasonable extent without fracturing. This is important during installation, as the pipes may need to be bent or shaped to fit the pipeline route. Ductility also helps the pipes to withstand thermal expansion and contraction in service. In areas with temperature variations, the pipe needs to be able to expand and contract without cracking.5. Applications5.1 General - Purpose PipingASTM A53 A106 carbon steel pipes are widely used for general - purpose piping in various industries. They can be used for transporting water, air, and other non - corrosive fluids in buildings, factories, and other facilities. Their relatively low cost, combined with good mechanical properties, makes them a popular choice for such applications.5.2 Oil and Gas IndustryIn the oil and gas industry, these pipes are used for a variety of purposes. They can be used in onshore pipelines to transport crude oil, natural gas, and refined petroleum products. The seamless pipes under ASTM A106 are especially suitable for high - temperature and high - pressure applications, such as in refineries where the pipes may be exposed to hot oil and gas streams. The ability of these pipes to withstand the corrosive nature of some oil and gas fluids, especially when combined with appropriate coatings or corrosion - resistant alloys, makes them suitable for this industry.5.3 Power GenerationIn power generation plants, ASTM A53 A106 carbon steel pipes are used in different systems. For example, they can be used in the feedwater systems to transport water to the boilers. The seamless pipes under ASTM A106 are used in high - temperature sections, such as in the superheater and reheater sections of boilers, where they need to withstand high - temperature steam. The pipes must be able to handle the pressure and temperature requirements of the power generation process to ensure a reliable and continuous operation.Detailed Photos Processing of Production
Purchasing Request
Note: Send your purchase request, and we will screen suppliers or manufacturers for you free of charge...