Welded Steel tube E460, EN 10305-3

Product info

Supplier: Tapgroup internation.,JSC
Address: Số 32 Lô N4D, đường X2A, Yên Sở, Hoàng Mai, Hà Nội
Phone: 0084 933 86 77 86
Email: info@tapgroup.vn
Website: https://supplier-pipe-tube-ongthep.com
Insurance: 12 tháng
Status: Mới 100%
Origin: China, Korea, Malaysia, Thailand, Japan, EU, G7

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Product Name: Welded Steel tube E460, EN 10305-3
The alternative name or alias of a product: Welded Steel pipe E460, EN 10305-3 ERW tube E460, EN 10305-3
Product Description:
• Material: E460, Steel Number 1.0435
• Type: Welded (ERW)
• Standard EN 10305-3
• Size:
• Outer Diameter (OD): OD6 to OD193.7
• Wall Thickness (WT): 0.6mm to 6mm
• Length: 6000mm To 12000mm and the length according to customer's request
Quality Control:
• ISO 9001:, ISO 14001:2015, OHSAS 18001:2007 Quality management systems – Requirements
• Other:
. Certification:
• EN 10204 3.1: Inspection certificate type 2.1, 3.1 and 3.2 issued in accordance with EN 10204
• Shipping: Delivery of goods to the address requested by the customer
Chemical composition
Steel grade % by mass
Steel name Steel number Carbon. Max  Silicon. Max Manganese. Max Phosphorus. Max  Sulfur Altotalmin.
E460 1.0435 0.16 0.55 1.7 0,025 0,025 0.02
Mechanical Properties
Welded steel tube E460, according to EN 10305-3 standard, is a high-strength steel tube with excellent mechanical properties. It is commonly used in applications that require high-strength and durability, such as heavy machinery, construction equipment, and hydraulic systems.
The mechanical properties of welded steel tube E460, EN 10305-3, are specified by the standard and are determined by testing the tube's physical and mechanical characteristics. The following are the typical mechanical properties of welded steel tube E460:
1. Tensile Strength: The tensile strength of welded steel tube E460 is typically in the range of 580 – 780 MPa. This is the maximum stress that the tube can withstand before it breaks under tension.
2. Yield Strength: The yield strength of welded steel tube E460 is typically in the range of 460 – 620 MPa. This is the stress at which the tube starts to deform plastically, and it is used to determine the tube's ability to withstand loads without permanent deformation.
3. Elongation: The elongation of welded steel tube E460 is typically in the range of 14 – 22%. This is the percentage of deformation that the tube undergoes before it breaks under tension, and it is used to determine the tube's ability to deform without cracking or breaking.
4. Impact Strength: The impact strength of welded steel tube E460 is typically in the range of 20 – 60 J. This is the energy required to break the tube under impact, and it is used to determine the tube's ability to withstand sudden shocks and loads.
5. Hardness: The hardness of welded steel tube E460 is typically in the range of 170 – 240 HB. This is a measure of the tube's resistance to indentation and is used to determine the tube's ability to resist wear and deformation.
In summary, welded steel tube E460, EN 10305-3, is a high-strength steel tube with excellent mechanical properties. The typical mechanical properties include high tensile and yield strength, good elongation and impact strength, and resistance to wear and deformation. These properties make welded steel tube E460 an ideal choice for various applications that require high-strength and durability.

 
 Inspection and testing 
Inspection and testing are critical steps in ensuring the quality and reliability of welded steel tube E460, according to EN 10305-3 standard. These procedures help to identify any defects or deviations from the required specifications, ensuring that the welded steel tubes meet the required standards and specifications.
The inspection and testing of welded steel tube E460 typically include the following steps:
1. Visual Inspection: This is a basic inspection process that involves examining the welded steel tube visually for any surface defects, such as cracks, scratches, or dents. The visual inspection ensures that the tube's surface is free from any defects that could affect its structural integrity.
2. Dimensional Inspection: This involves measuring the welded steel tube's dimensions, such as the diameter, thickness, and length, to ensure that they meet the required specifications.
3. Ultrasonic Testing: This is a non-destructive testing technique that uses high-frequency sound waves to detect any internal defects or flaws in the welded steel tube, such as cracks or voids.
4. Mechanical Testing: This involves testing the mechanical properties of the welded steel tube, such as its tensile strength, yield strength, elongation, impact strength, and hardness. These tests ensure that the tube's mechanical properties meet the required specifications.
5. Chemical Analysis: This involves analyzing the chemical composition of the welded steel tube to ensure that it meets the required standards and specifications.
6. Corrosion Resistance Testing: This involves testing the welded steel tube's resistance to corrosion and other forms of degradation, such as oxidation or rusting.
The inspection and testing procedures are typically conducted by qualified personnel and are carried out according to the relevant standards and specifications. Any defects or deviations identified during the inspection and testing process are corrected or addressed before the welded steel tubes are released for use.
In conclusion, the inspection and testing of welded steel tube E460, according to EN 10305-3 standard, are critical steps in ensuring the quality and reliability of the tubes. These procedures help to identify any defects or deviations from the required specifications, ensuring that the welded steel tubes meet the required standards and specifications. The inspection and testing procedures are typically conducted by qualified personnel and are carried out according to the relevant standards and specifications, ensuring that the welded steel tubes are of the highest quality and reliability.
Pressure and Temperature Ratings
The pressure rating and temperature for Welded Steel Tube E460, according to EN 10305-3 standard, depend on several factors such as the wall thickness, diameter, and material properties of the tube. These factors determine the tube's strength, which, in turn, determines its pressure rating and temperature range.
The pressure rating for Welded Steel Tube E460 typically ranges from 20 MPa to 100 MPa, depending on the tube's wall thickness and diameter. The pressure rating refers to the maximum pressure that the tube can withstand without experiencing failure or deformation. It is essential to ensure that the pressure rating of the tube is appropriate for the application to prevent any safety hazards.
The temperature range for Welded Steel Tube E460 depends on the material properties of the tube and the application requirements. The tube's material properties, such as its thermal conductivity and coefficient of thermal expansion, determine how it behaves under different temperature conditions.
Welded Steel Tube E460 is typically used in applications that require high-strength and durability, such as hydraulic and pneumatic systems, automotive and construction industries, and other industrial applications. The pressure rating and temperature range of the tube are crucial in ensuring that it can withstand the environmental conditions and stresses that it is exposed to.
It is important to note that the pressure rating and temperature range for Welded Steel Tube E460 may vary depending on the specific application and operating conditions. It is recommended to consult with a qualified engineer or technical expert to ensure that the tube's pressure rating and temperature range are suitable for the intended application.
Surface Treatment
The surface treatment of Welded Steel Tube E460, according to EN 10305-3 standard, is an essential step in protecting the tube from corrosion and other forms of damage. The surface treatment involves applying a coating or finish to the tube's surface, which creates a protective layer that prevents rust, oxidation, and other forms of corrosion.
The surface treatment of Welded Steel Tube E460 typically involves the following steps:
1. Cleaning: The tube's surface is cleaned to remove any dirt, debris, or contaminants that may interfere with the surface treatment process. The cleaning process may involve using a solvent or degreaser to remove any oil or grease from the tube's surface.
2. Surface Preparation: The tube's surface is prepared to ensure that the coating or finish can adhere properly. The surface preparation process may involve roughening or etching the surface to create a texture that allows the coating or finish to bond effectively.
3. Coating or Finish Application: The coating or finish is applied to the tube's surface using a variety of methods, such as spraying, dipping, or brushing. The coating or finish may be a paint, varnish, epoxy, or other protective materials that are suitable for the application.
4. Curing: The tube is allowed to cure, which involves allowing the coating or finish to dry and harden. The curing process may involve exposing the tube to heat or air, depending on the coating or finish used.
The surface treatment of Welded Steel Tube E460 provides several benefits, including improving its appearance, enhancing its resistance to corrosion and other forms of damage, and prolonging its lifespan. The type of surface treatment used depends on the application requirements and the environment that the tube will be exposed to.
In conclusion, the surface treatment of Welded Steel Tube E460 is an essential step in protecting the tube from corrosion and other forms of damage. The surface treatment involves cleaning and preparing the tube's surface before applying a coating or finish that creates a protective layer. The type of surface treatment used depends on the application requirements and the environment that the tube will be exposed to.
Standard marking for steel tubes
The standard marking of Welded Steel Tube E460, according to EN 10305-3 standard, is a critical step in ensuring that the tube can be identified and traced throughout its lifecycle. The marking provides important information about the tube's properties, specifications, and manufacturer, which helps in quality control, inventory management, and safety.
The standard marking of Welded Steel Tube E460 typically includes the following information:
1. Manufacturer's Logo: The logo of the manufacturer or supplier of the tube is usually marked on the tube's surface to identify the source of the tube.
2. Tube Grade: The tube grade, which is E460, is marked on the tube's surface to indicate its material properties and specifications.
3. Dimensions: The dimensions of the tube, such as its outer diameter, wall thickness, and length, are marked on the tube's surface to provide information about its size and shape.
4. Production Standard: The EN 10305-3 production standard is marked on the tube's surface to indicate that the tube has been manufactured according to the standard's specifications.
5. Heat Number: The heat number, which is a unique identification number assigned to each batch of tubes during the manufacturing process, is marked on the tube's surface. The heat number helps to track the tube's manufacturing history and ensures traceability.
6. Traceability Information: The traceability information, which includes the batch number, production date, and order number, is marked on the tube's surface to facilitate tracking and traceability.
The standard marking of Welded Steel Tube E460 is usually done using permanent marking methods such as stenciling, stamping, or laser engraving. The marking should be clear, visible, and durable to ensure that it remains legible throughout the tube's lifecycle.
In conclusion, the standard marking of Welded Steel Tube E460 is an essential step in ensuring that the tube can be identified and traced throughout its lifecycle. The marking includes information about the tube's properties, specifications, and manufacturer, which helps in quality control, inventory management, and safety. The marking is usually done using permanent marking methods and should be clear, visible, and durable.
Standard packing for steel Tubes
The standard packing for Welded Steel Tube E460, according to EN 10305-3 standard, is an important aspect of ensuring that the tube is protected during transportation and storage. The packing should be designed to prevent damage to the tube's surface, edges, and ends, and to ensure that the tube is delivered in good condition.
The standard packing for Welded Steel Tube E460 typically includes the following:
1. Bundles: The tubes are usually packed in bundles, with each bundle consisting of a specific number of tubes. The number of tubes in each bundle depends on the tube's diameter and length.
2. Protective Caps: The ends of each tube are usually covered with protective caps to prevent damage during transportation and handling.
3. Strapping: The bundles are usually strapped with steel straps to keep the tubes together and prevent them from moving or falling during transportation.
4. Plastic Wrapping: The bundles are usually wrapped with plastic film to protect the tubes from moisture, dust, and other environmental factors.
5. Marking: The bundles are usually marked with information such as the tube grade, dimensions, heat number, and other traceability information. The marking helps to identify the contents of the bundle and ensure traceability.
The standard packing for Welded Steel Tube E460 should be designed to ensure that the tubes are protected during transportation and storage, and to facilitate handling and loading/unloading operations. The packing should be strong and durable, and should be able to withstand the rigors of transportation and handling.
In conclusion, the standard packing for Welded Steel Tube E460 is an important aspect of ensuring that the tube is protected during transportation and storage. The packing typically includes bundles, protective caps, strapping, plastic wrapping, and marking. The packing should be designed to prevent damage to the tube's surface, edges, and ends, and to facilitate handling and loading/unloading operations.
Supplier
TAP Viet nam International Investment Joint Stock Company (TAP Viet nam) is a leading supplier of Welded Steel Tube E460, according to the EN 10305-3 standard. The company specializes in the production and supply of high-quality steel tubes for various applications, including mechanical engineering, construction, automotive, and other industrial sectors.
Welded Steel Tube E460 is a high-strength steel tube that is widely used in the mechanical engineering industry. It is known for its excellent mechanical properties, including high tensile strength, good ductility, and toughness. This makes it an ideal choice for applications that require high strength and durability, such as heavy-duty machinery, construction equipment, and pipelines.
TAP Viet nam's Welded Steel Tube E460 is manufactured using the latest technology and equipment to ensure high-quality and consistent production. The tubes are made from high-grade steel that is carefully selected and tested to meet the EN 10305-3 standard requirements. The tubes undergo a rigorous production process, including welding, sizing, straightening, and testing, to ensure that they meet the highest quality standards.
TAP Viet nam's Welded Steel Tube E460 is also subjected to extensive testing and inspection to ensure that it meets the required specifications. The company's quality control team conducts various tests, including dimensional checks, visual inspections, tensile tests, hardness tests, and other mechanical tests, to ensure that the tubes meet the required standards.
As a supplier, TAP Viet nam offers a wide range of options for customers to choose from, including different sizes, wall thicknesses, and lengths, depending on the application. The company also offers custom orders to meet the specific requirements of customers.
TAP Viet nam's commitment to quality and customer satisfaction is reflected in its quality management system, which is certified according to the ISO 9001:2015 standard. The company also adheres to strict environmental and safety standards, ensuring that its products are produced in a responsible and sustainable manner.
In conclusion, TAP Viet nam International Investment Joint Stock Company is a reliable and trusted supplier of Welded Steel Tube E460, EN 10305-3. The company's commitment to quality, customer satisfaction, and sustainability makes it a preferred choice for customers looking for high-quality steel tubes for their applications.

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Sizes and diameter tolerances Welded cold sized Steel tubes EN 10305-3
EN 10305-3 is a European standard that specifies the technical delivery conditions for welded cold-sized steel tubes for precision applications. These tubes are typically used in the mechanical engineering and automotive industries, where high precision and reliability are required.
The standard defines several requirements for the sizes and diameter tolerances of the tubes. These include:
1. Nominal sizes: The nominal sizes of the tubes range from 6mm to 200mm, with wall thicknesses from 0.5mm to 10mm.
2. Dimensions: The standard specifies the dimensions of the tubes, including the outside diameter, wall thickness, and length. The outside diameter of the tubes ranges from 6mm to 200mm, with a tolerance of +/- 0.08mm. The wall thickness ranges from 0.5mm to 10mm, with a tolerance of +/- 10%.
3. Ovality: The standard specifies the ovality of the tubes, which is the difference between the maximum and minimum diameter of the tube divided by the nominal diameter. The ovality tolerance ranges from 0.4% to 1.0%, depending on the diameter and wall thickness of the tube.
4. Straightness: The standard specifies the straightness of the tubes, which is the maximum deviation from a straight line over the length of the tube. The straightness tolerance ranges from 0.15% to 0.25% depending on the diameter and wall thickness of the tube.
5. Length: The standard specifies the length of the tubes, which can be cut to specific lengths or supplied in random lengths. The tolerance on length is +/- 500mm or +/- 3% of the total length, whichever is greater.
6. Surface finish: The standard specifies the surface finish of the tubes, which must be free from defects and have a smooth, clean surface.
In summary, the EN 10305-3 standard defines the sizes and diameter tolerances for welded cold-sized steel tubes for precision applications, including nominal sizes, dimensions, ovality, straightness, length, and surface finish. These specifications ensure that the tubes meet the high precision and reliability requirements of the mechanical engineering and automotive industries.
Sizes and diameter tolerances Welded Steel tubes EN 10305-3
Dimensions in millimetres
Outside diameter D
and tolerances
Wall thickness T (mm)
0.6 0.8 1 1.2 1.5 1.8 2 2.2 2.5 3 3.5 4 4.5 5 5.5 6
Mass per unit length (kg/m)
6 ±0,12 0.080 0.103 0.123                          
8 0.109 0.142 0.173 0.201 0.240                      
10 0.139 0.182 0.222 0.260 0.314                      
12 0.169 0.221 0.271 0.320 0.388 0.453 0.493                  
15 0.213 0.280 0.345 0.408 0.499 0.586 0.641 0.694                
16 0.228 0.300 0.370 0.438 0.536 0.630 0.691 0.749                
18 0.257 0.339 0.419 0.497 0.610 0.719 0.789 0.857 0.956              
19 0.272 0.359 0.444 0.527 0.647 0.764 0.838 0.911 1.02 1.18            
20 ±0,15 0.287 0.379 0.469 0.556 0.684 0.808 0.888 0.966 1.08 1.26            
22 0.317 0.418 0.518 0.616 0.758 0.897 0.986 1.07 1.20 1.41            
25 0.361 0.477 0.592 0.704 0.869 1.03 1.13 1.24 1.39 1.63            
28 0.405 0.537 0.666 0.793 0.980 1.16 1.28 1.40 1.57 1.85 2.11          
30 0.435 0.576 0.715 0.852 1.05 1.25 1.38 1.51 1.70 2.00 2.29          
32 ±0,20   0.616 0.765 0.911 1.13 1.34 1.48 1.62 1.82 2.15 2.46          
35     0.838 1.00 1.24 1.47 1.63 1.78 2.00 2.37 2.72          
38     0.912 1.09 1.35 1.61 1.78 1.94 2.19 2.59 2.98 3.35        
40     0.962 1.15 1.42 1.70 1.87 2.05 2.31 2.74 3.15 3.55        
42     1.01 1.21 1.50 1.78 1.97 2.16 2.44 2.89 3.32 3.75        
42.4     1.02 1.22 1.51 1.80 1.99 2.18 2.46 2.91 3.36 3.79        
44 ±0,25     1.06 1.27 1.57 1.87 2.07 2.27 2.56 3.03 3.50 3.95        
45     1.09 1.30 1.61 1.92 2.12 2.32 2.62 3.11 3.58 4.04        
48.3     1.17 1.39 1.73 2.06 2.28 2.50 2.82 3.35 3.87 4.37 4.86      
50     1.21 1.44 1.79 2.14 2.37 2.59 2.93 3.48 4.01 4.54 5.05      
51       1.47 1.83 2.18 2.42 2.65 2.99 3.55 4.10 4.64 5.16      
55 ±0,30       1.59 1.98 2.36 2.61 2.86 3.24 3.85 4.45 5.03 5.60      
57       1.65 2.05 2.45 2.71 2.97 3.36 4.00 4.62 5.23 5.83      
60       1.74 2.16 2.58 2.86 3.14 3.55 4.22 4.88 5.52 6.16 6.78 7.39  
63.5       1.84 2.29 2.74 3.03 3.33 3.76 4.48 5.18 5.87 6.55 7.21 7.87  
70 ±0,35       2.04 2.53 3.03 3.35 3.68 4.16 4.96 5.74 6.51 7.27 8.01 8.75  
76       2.21 2.76 3.29 3.65 4.00 4.53 5.40 6.26 7.10 7.93 8.75 9.56  
80 ±0,40       2.33 2.90 3.47 3.85 4.22 4.78 5.70 6.60 7.50 8.38 9.25 10.1  
89         3.24 3.87 4.29 4.71 5.33 6.36 7.38 8.38 9.38 10.4 11.3 12.3
90         3.27 3.92 4.34 4.76 5.39 6.44 7.47 8.48 9.49 10.5 11.5 12.4
100 ±0,50         3.64 4.36 4.83 5.31 6.01 7.18 8.33 9.47 10.6 11.7 12.8 13.9
101.6         3.70 4.43 4.91 5.39 6.11 7.29 8.47 9.63 10.8 11.9 13.0 14.1
108 ±0,60         3.94 4.71 5.23 5.74 6.50 7.77 9.02 10.3 11.5 12.7 13.9 15.1
114           4.98 5.52 6.07 6.87 8.21 9.54 10.9 12.2 13.4 14.7 16.0
120           5.25 5.82 6.39 7.24 8.66 10.1 11.4 12.8 14.2 15.5 16.9
127 ±0,8           5.56 6.17 6.77 7.68 9.17 10.7 12.1 13.6 15.0 16.5 17.9
133           5.82 6.46 7.10 8.05 9.62 11.2 12.7 14.3 15.8 17.3 18.8
139.7           6.12 6.79 7.46 8.46 10.1 11.8 13.4 15.0 16.6 18.2 19.8
159 ±1,0           6.98 7.74 8.51 9.65 11.5 13.4 15.3 17.1 19.0 20.8 22.6
168           7.38 8.19 9.00 10.2 12.2 14.2 16.2 18.1 20.1 22.0 24.0
193.7               10.4 11.8 14.1 16.4 18.7 21.0 23.3 25.5 27.8
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