ASTM A 106 GRB cold drawn seamless steel pipe

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Loading Port:: Tianjin

Payment Terms:: TT OR LC

Min Order Qty:: 50 m.t.

Supply Capability:: 10000 m.t./month

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Quick Details

Thickness:	1 - 80 mm	Section Shape:	Round	Outer Diameter:	6 - 2020 mm
Place of Origin:	Shandong China (Mainland)	Secondary Or Not:	Non-secondary	Application:	Oil Pipe
Technique:	Cold Drawn,Seamless	Certification:	API	Surface Treatment:	Copper Coated
Special Pipe:	API Pipe	Alloy Or Not:	Is Alloy	Grade:	20#,45#,15CrMo,10CrMo910,13CrMo44,12Cr2Mo,12CrMo195,12Cr1MoVG,API J55,API K55,St37,St52,St35.8,St37-2,St42-2,10#-45#,Cr-Mo alloy,API J55-API P110,ST35-ST52
Standard:	GB 5310-1995,GB 3087-1999,GB/T 8163-1999,GB/T 8162-1999,GB/T 9711.1-1997,GB 13296-2007,GB/T 3091-2001,GB/T 3089-1982,GB/T 17396-1998,GB/T 12771-2000,GB

Packaging & Delivery

Packaging Detail:	Export packing or as your demand.
Delivery Detail:	depend on the QTY you need.

Specifications

cold drawn seamless steel pipes
1)Grade:20#,45#,16Mn C20,C45,St52 A106 A53
2)OD10.3mm--1219mm WT SCH5S--XXS
3)High quality

Standard	Steel Grade	Standard Name	Dimension
No	Steel Grade	Standard Name	Range
EN 10208	L210GA,L235GA,L245GA,L290GA,	Steel Pipes for Pipelines for	33.7-1626mm
	L360GA,L245NB, L290NB,L360NB,	Combustible Fluids
	L415NB, L360QB, LI15QB,L450QB,
	L485QB,L555QB
EN 10210	S235JRH,S275JOH,S275J2H,S355JOH,	Hot Finished Structural	21.3-1219mm
	S355J2H,S355K2H,S275NH,S275NLH,	Hollow Sections of Non-alloy
	S355NH,S355NLH,S420NH,S420NLH,	and Fine Grain Steels
	S46INH,S460NLH
EN 10216-1	P195TRI,P195TR2,P235TR1,	Seamless Steel Tubes for	10.2-711mm
	P235TR2, P265TR I, P265TR2	Pressure Purposes-1-
		Non-alloy Steel Tubes with
		Specified Room Temperature
		Properties
EN 10216-2	P195GH, P235GH, P265GH,	Seamless Steel Tubes for	10.2-711mm
	20MnNb6,16Mo3, 8MoB5-4,	Pressure Purposes-2:
	14MoV6.3, 10CrMo5.5,13CrMo4-5,	Non-alloy and Alloy Steel
	10CrMo9-10, 11CrMo9.10,	Tubes with Specified Elevated
	25CrMo4,20CrMoV13-5-5,	Temperature Properties
	15 NiCuMoNB-6-4,X11CrMo5+1,
	X11CrMo5+NTI,X11CrMo5+NT2,
	X11CrMo9.1+1, X11CrMo9.1+NT,
	X10CrMoVNb9-l, X20CrNiV11-1
EN 10216-3	P275NL I,P275NL2, P355N,P355NH,	Seamless Steel Tubes for	10.2-711mm
	P355NL1,P355NL2,P460N,P460NH,	Pressure Purposes-3:
	P460NL1,P460NL2,P620Q,P620QH,P620QL,	Alloy Fine Grant Steel Tubes
	P690Q,P690QH,P690OL1,P690QL2
EN10216-4	P215NL,P255QL,P265NL,	Seamless Steel Tubes far	10.2-711mm
	26CrMo4.2,11MnNi5-3,13MnNi6-3,	Pressure Purposes-4:
	12Nil4,Xl2Ni5,X10Ni9	Non-alloy aid Alloy Steel
		Tubes with Specified Low
		Temperature Properties
EN 10224	L235, L275, L355	Non-alloy Steel Tubes and	26.9-2743mm
		Fittings for the Conveyance of
		Water and Other Aqueous
		Liquids
EN 10297-1	E235,E275,E315,E355,E470,	Seamless Circular Steel Tubes	26.9-610mm
	E275K2,E355K2,E420J2,E460K2,	for Mechanical mid General
	E590K2,F730K2 C22E,C35E,C45E,C60E,	Engineering Purposes-1:
	38Mn6,41Cr4,25CrMo4,30CrMo4,	Non-alloy and Alloy
	34CrMo4,42CrMo4,36CrNiMo4,	Steel Tubes
	30CrNiMo8,4lNiCrMo7-3-2
EN 10305-1	E215,E235,E355	Steel Tubes For Precision	4-260mm
		Applications-1:
		Seamless Cold Drawn Tubes
EN 10305-4	E215,E235,E355	Steel Tubes for precision	4-80mm
		Applications-4:
		Seamless Cold Drawn Tubes
		for Hydraulic mid Pneumatic
		Power Systems

Q:How do you prevent freezing in steel pipes during cold weather?: To prevent freezing in steel pipes during cold weather, there are several measures that can be taken: 1. Insulate the pipes: Insulation is an effective way to protect steel pipes from freezing. Use insulation sleeves or wraps to cover the pipes, especially in areas where they are exposed to cold temperatures. Insulation helps retain heat and prevents the pipes from reaching freezing temperatures. 2. Seal any air leaks: Check for any gaps or openings around the pipes where cold air can enter. Use caulking or weatherstripping to seal these gaps and prevent cold air from reaching the pipes. 3. Maintain a consistent temperature: Ensure that the area where the pipes are located is adequately heated and insulated. Keeping the temperature above freezing will help prevent the pipes from freezing. If the pipes are exposed to extremely low temperatures, consider using heat tape or pipe heating cables to provide additional warmth. 4. Allow water to flow: Running a small, continuous trickle of water through the pipes can help prevent freezing. The flowing water generates heat and inhibits the formation of ice within the pipes. However, this method should only be used as a last resort, as it can waste water. 5. Drain the pipes: If the steel pipes are in an area that is not regularly used or if freezing weather is expected, it may be advisable to drain the pipes completely. Turn off the water supply and open all faucets to allow the water to drain out. This eliminates any standing water that could freeze and cause the pipes to burst. It is important to note that prevention is key, as frozen steel pipes can lead to costly damages and water leaks. By implementing these measures, you can protect your steel pipes and ensure they remain functional during cold weather.

Q:Are steel pipes suitable for use in sewage treatment plants?: Yes, steel pipes are suitable for use in sewage treatment plants. Steel pipes are durable, corrosion-resistant, and can withstand high-pressure applications, making them an ideal choice for transporting and containing sewage in treatment plants. Additionally, steel pipes can be easily welded, allowing for seamless connections and minimizing the risk of leaks or contamination.

Q:How do steel pipes perform in high-altitude applications?: Steel pipes perform well in high-altitude applications due to their inherent strength and durability. The high tensile strength of steel allows it to withstand the harsh conditions and extreme temperature variations experienced at high altitudes. Furthermore, steel pipes are resistant to corrosion, making them suitable for use in high-altitude environments where exposure to moisture and atmospheric gases is common. Overall, steel pipes are a reliable choice for various high-altitude applications, including oil and gas transportation, construction, and infrastructure development.

Q:How do steel pipes handle extreme temperatures?: Steel pipes are highly durable and can handle extreme temperatures due to their inherent strength and heat resistance. They have a high melting point, allowing them to withstand both very high and very low temperatures without compromising their structural integrity. Additionally, steel pipes have excellent thermal conductivity, which enables them to efficiently transfer heat and prevent damage caused by extreme temperature fluctuations.

Q:What is the primary purpose of steel pipes?: The primary purpose of steel pipes is to transport fluids and gases, such as water, oil, and natural gas, over long distances in a safe and efficient manner.

Q:How are steel pipes repaired if they are damaged?: Steel pipes can be repaired if they are damaged through various methods such as welding, patching, or using pipe clamps.

Q:What is the maximum operating temperature for steel pipes?: The maximum operating temperature for steel pipes can vary depending on the grade of steel used, but it is generally around 1000°C (1832°F) for standard carbon steel pipes.

Q:How are steel pipes used in sewage treatment plants?: Steel pipes are used in sewage treatment plants to transport wastewater from one area to another, such as from the collection point to treatment tanks or from treatment tanks to discharge points. They are also used for the installation of various equipment, such as pumps, valves, and screens, which are essential for the treatment process. Additionally, steel pipes are used in the construction of structural components like supports and platforms within the plant. Overall, steel pipes provide a durable and reliable solution for the efficient management and movement of wastewater in sewage treatment plants.

Q:How are steel pipes insulated to prevent heat loss?: Steel pipes are typically insulated using materials such as fiberglass, foam, or mineral wool. These insulation materials are wrapped around the pipes and securely held in place with tapes or clamps. This insulation layer acts as a barrier, reducing heat transfer and preventing heat loss from the steel pipes.

Q:What are the different methods of pipe inspection for steel pipes?: There are several methods of pipe inspection that can be used for steel pipes. Some of the commonly used methods are as follows: 1. Visual Inspection: This is the most basic form of pipe inspection where a trained inspector visually examines the exterior and interior of the pipe to identify any visible defects or abnormalities. This method is often used as a preliminary inspection before more advanced techniques are employed. 2. Magnetic Particle Inspection (MPI): MPI involves applying a magnetic field to the steel pipe and then applying iron particles to the surface. Any surface cracks or defects in the pipe will cause a leakage of magnetic flux, which can be detected by the inspector. This method is particularly effective in identifying surface defects in ferromagnetic materials. 3. Ultrasonic Testing (UT): UT is a non-destructive testing method that uses high-frequency sound waves to detect internal defects or anomalies in steel pipes. A transducer is used to send ultrasonic waves into the pipe, and the reflections or echoes of the sound waves are analyzed to determine the presence of defects such as corrosion, cracks, or wall thickness variations. 4. Radiographic Testing (RT): In this method, X-rays or gamma rays are used to create an image of the internal structure of the steel pipe. The X-rays or gamma rays pass through the pipe, and the resulting image can reveal any defects, such as cracks, corrosion, or weld discontinuities. This method is commonly used for inspecting welded joints. 5. Eddy Current Testing (ECT): ECT is a non-destructive testing technique that uses electromagnetic induction to detect surface and near-surface defects in steel pipes. A coil carrying an alternating current is passed over the pipe's surface, and any changes in the electrical conductivity or magnetic field caused by defects are detected and analyzed. 6. Acoustic Emission Testing (AET): AET is a method that detects and analyzes the high-frequency acoustic signals emitted by materials when they undergo deformation or damage. In the case of steel pipes, AET can be used to monitor and identify defects such as cracks, leaks, or corrosion by analyzing the acoustic signals emitted during service or under stress. These are just a few of the commonly used methods of pipe inspection for steel pipes. The choice of method depends on various factors such as the type of defect being looked for, the accessibility of the pipe, the desired level of sensitivity, and the cost and time constraints. It is often recommended to use a combination of inspection techniques to ensure a thorough assessment of the steel pipes.

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