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Welded Steel tube E600, EN 10305-3 - Tapgroup

Welded Steel tube E600, 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 E600, EN 10305-3
The alternative name or alias of a product: Welded Steel pipe E600, EN 10305-3 ERW tube E600, EN 10305-3
Product Description:
• Material: E600, Steel Number 1.0595
• 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.
E600 1.0595 0.16 0.6 1.8 0,025 0,025 0.02
Mechanical Properties
Welded Steel Tube E600, EN 10305-3 is a high-strength steel tube with excellent mechanical properties, specifically designed for precision applications. The mechanical properties of this steel tube are determined by its chemical composition, microstructure, and processing conditions. Here is a detailed description of the mechanical properties of Welded Steel Tube E600, EN 10305-3:
1. Tensile Strength: Tensile strength is the maximum stress that a material can withstand under tension before breaking. The minimum tensile strength of Welded Steel Tube E600, EN 10305-3 is 700 N/mm², which is significantly higher than other steel tubes used for precision applications.
2. Yield Strength: Yield strength is the stress at which a material begins to deform permanently. The minimum yield strength of Welded Steel Tube E600, EN 10305-3 is 600 N/mm². This means that the material can withstand high stress and deformation without permanent damage.
3. Elongation: Elongation is the measure of a material's ability to stretch before breaking. The minimum elongation of Welded Steel Tube E600, EN 10305-3 is 10%, which means that the material can undergo significant deformation before breaking.
4. Hardness: Hardness is the resistance of a material to deformation. The minimum hardness of Welded Steel Tube E600, EN 10305-3 is 200 HV, which is significantly higher than other steel tubes used for precision applications. This indicates that the material is highly resistant to deformation and wear.
5. Impact Strength: Impact strength is the measure of a material's ability to absorb energy when subjected to an impact. The minimum impact strength of Welded Steel Tube E600, EN 10305-3 is 60 J/cm². This indicates that the material can withstand high impact forces without breaking or cracking.
In conclusion, Welded Steel Tube E600, EN 10305-3 is a high-strength steel tube with excellent mechanical properties. Its high tensile and yield strength, elongation, hardness, and impact strength make it an ideal choice for precision applications that require high strength, durability, and resistance to deformation and wear.
 Inspection and testing 
Inspection and testing are critical steps in ensuring the quality and reliability of Welded Steel Tube E600, EN 10305-3. The inspection and testing process involves various methods and techniques that are designed to detect any defects or inconsistencies in the material. Here is a detailed description of the inspection and testing methods used for Welded Steel Tube E600, EN 10305-3:
1. Visual Inspection: Visual inspection is the first step in the inspection process, which involves a thorough examination of the material's surface for any visible defects such as cracks, scratches, or deformations. This inspection helps to identify any surface irregularities that may indicate deeper structural problems.
2. Dimensional Inspection: Dimensional inspection involves measuring the physical dimensions of the material, including the diameter, thickness, and length, to ensure they meet the required specifications.
3. Chemical Analysis: Chemical analysis involves testing the chemical composition of the material to ensure that it meets the required standards. This testing involves analyzing the material's carbon, sulfur, phosphorus, and other elemental compositions.
4. Mechanical Testing: Mechanical testing involves subjecting the material to various mechanical stresses, such as tension, compression, and bending, to measure its strength, elongation, and other mechanical properties.
5. Ultrasonic Testing: Ultrasonic testing involves the use of high-frequency sound waves to detect any internal defects in the material, such as cracks, voids, or inclusions. This testing is done by passing a sound wave through the material and measuring the time it takes to reflect back.
6. Eddy Current Testing: Eddy current testing involves passing an alternating current through the material and measuring the electromagnetic field that is generated. This testing can detect surface defects and inconsistencies in the material.
7. Magnetic Particle Inspection: Magnetic particle inspection involves the use of magnetic particles to detect any surface or near-surface defects in the material. This testing is done by applying a magnetic field to the material and then introducing magnetic particles to the surface. Any defects in the material will attract the magnetic particles, making them visible.
In conclusion, inspection and testing are critical steps in ensuring the quality and reliability of Welded Steel Tube E600, EN 10305-3. These methods help to identify any defects or inconsistencies in the material, ensuring that it meets the required standards for precision applications. By following a rigorous inspection and testing process, TAP Viet Nam International Investment Joint Stock Company can deliver high-quality Welded Steel Tube E600, EN 10305-3 that meets the specific needs of its customers.
Pressure and Temperature Ratings
The pressure rating and temperature for Welded Steel Tube E600, EN 10305-3 are important considerations when designing and selecting the appropriate material for various applications. The pressure rating and temperature limits of this steel tube are determined by its mechanical properties, chemical composition, and microstructure. Here is a detailed description of the pressure rating and temperature for Welded Steel Tube E600, EN 10305-3:
1. Pressure Rating: The pressure rating of Welded Steel Tube E600, EN 10305-3 depends on its wall thickness and diameter. The material has a minimum yield strength of 600 N/mm² and a minimum tensile strength of 700 N/mm², which makes it suitable for high-pressure applications. The pressure rating of this steel tube can range from a few hundred psi to several thousand psi, depending on the specific application and the diameter and thickness of the tube.
2. Temperature Limit: The temperature limit for Welded Steel Tube E600, EN 10305-3 is determined by the material's ability to maintain its mechanical properties at high temperatures. The material's maximum operating temperature is typically determined by its yield strength and thermal expansion coefficient. At temperatures above the maximum operating temperature, the material may experience permanent deformation, loss of strength, or other mechanical failures. The maximum operating temperature for this steel tube is typically around 350°C.
In conclusion, Welded Steel Tube E600, EN 10305-3 is a high-strength steel tube that is suitable for high-pressure applications. Its pressure rating and temperature limit depend on its mechanical properties, chemical composition, and microstructure. By selecting the appropriate diameter and wall thickness, and by following the recommended temperature limits, TAP Viet Nam International Investment Joint Stock Company can deliver Welded Steel Tube E600, EN 10305-3 that meets the specific needs of its customers.
Surface Treatment
Surface treatment is an essential process that improves the surface properties of Welded Steel Tube E600, EN 10305-3, and protects it from corrosion and other environmental factors. The surface treatment process involves various methods and techniques that are designed to clean, degrease, and protect the surface of the material. Here is a detailed description of the surface treatment methods used for Welded Steel Tube E600, EN 10305-3:
1. Phosphating: Phosphating is a chemical process that involves applying a phosphate coating to the surface of the material. This coating improves the adhesion of paint and other coatings and provides corrosion protection. The phosphating process involves cleaning and degreasing the material, followed by the application of a phosphate coating using either immersion or spray methods.
2. Galvanizing: Galvanizing is a process that involves applying a layer of zinc to the surface of the material to protect it from corrosion. This process is commonly used for outdoor applications where the material is exposed to moisture and other environmental factors. The galvanizing process involves cleaning and degreasing the material, followed by the application of a zinc coating using either hot-dip or electroplating methods.
3. Electroplating: Electroplating is a process that involves applying a thin layer of metal, such as nickel or chrome, to the surface of the material. This process improves the appearance of the material and provides corrosion protection. The electroplating process involves cleaning and degreasing the material, followed by the application of a metal coating using an electrolytic process.
4. Powder Coating: Powder coating is a process that involves applying a dry powder to the surface of the material, which is then cured at high temperatures to form a durable and corrosion-resistant coating. The powder coating process involves cleaning and degreasing the material, followed by the application of the powder using an electrostatic spray or fluidized bed method.
5. Anodizing: Anodizing is a process that involves creating a layer of oxide on the surface of the material to improve its corrosion resistance and appearance. This process is commonly used for aluminum and other non-ferrous metals. The anodizing process involves cleaning and degreasing the material, followed by the application of an electrolytic solution that creates a layer of oxide on the surface of the material.
In conclusion, surface treatment is an essential process that improves the surface properties of Welded Steel Tube E600, EN 10305-3, and protects it from corrosion and other environmental factors. By selecting the appropriate surface treatment method, TAP Viet Nam International Investment Joint Stock Company can deliver Welded Steel Tube E600, EN 10305-3 that meets the specific needs of its customers.
Standard marking for steel tubes
Standard marking of Welded Steel Tube E600, EN 10305-3 is a critical process that helps identify and trace the material's origin, manufacturing date, and other important information. The standard marking is applied to the surface of the tube and includes information such as the manufacturer's name, material grade, dimensions, and certification details. Here is a detailed description of the standard marking of Welded Steel Tube E600, EN 10305-3:
1. Manufacturer's Name and Logo: The manufacturer's name and logo are typically included in the standard marking of the tube. This information helps identify the manufacturer of the tube and ensures that the material meets the required standards and specifications.
2. Material Grade: The material grade of Welded Steel Tube E600, EN 10305-3 is typically included in the standard marking of the tube. This information indicates the material's mechanical properties, chemical composition, and other important characteristics.
3. Dimensions: The dimensions of the tube, such as the diameter, wall thickness, and length, are typically included in the standard marking. This information helps identify the size and shape of the tube and ensures that it meets the required specifications.
4. Certification Details: The certification details, such as the EN 10305-3 standard, are typically included in the standard marking of the tube. This information indicates that the tube has been manufactured and tested to meet the required standards and specifications.
5. Manufacturing Date: The manufacturing date of the tube is typically included in the standard marking. This information helps identify the age of the tube and ensures that it meets the required standards and specifications.
The standard marking of Welded Steel Tube E600, EN 10305-3 is typically applied to the surface of the tube using either inkjet printing, stamping, or engraving methods. This marking is important for identifying and tracing the material's origin, ensuring that it meets the required standards and specifications, and preventing the use of counterfeit or substandard materials.
In conclusion, standard marking of Welded Steel Tube E600, EN 10305-3 is a critical process that helps identify and trace the material's origin, manufacturing date, and other important information. By following the standard marking requirements, TAP Viet Nam International Investment Joint Stock Company can deliver Welded Steel Tube E600, EN 10305-3 that meets the specific needs of its customers and ensures that the material is of high quality and meets the required standards and specifications.
Standard packing for steel Tubes
Standard packing of Welded Steel Tube E600, EN 10305-3 is an essential process that ensures the safe transportation and delivery of the material to the customer. TAP Viet Nam International Investment Joint Stock Company follows standard packing procedures to protect the material from damage during transit and storage. Here is a detailed description of the standard packing of Welded Steel Tube E600, EN 10305-3:
1. Plastic Caps: The tube ends are usually covered with plastic caps to prevent damage during transportation and handling. These caps also help to keep the tube ends clean and prevent the entry of foreign particles.
2. Wrapping: The tube is typically wrapped with a protective material such as a plastic sheet, VCI paper, or wax paper. This wrapping provides an extra layer of protection to prevent corrosion, scratches, and other types of damage during transportation and storage.
3. Bundling: The tubes are bundled together using steel straps, rope, or plastic bands. The bundling helps to keep the tubes together and prevent them from shifting or rolling during transportation.
4. Marking: The bundles are marked with the required information such as the material grade, dimensions, and quantity. This information helps to identify and track the material during transportation and storage.
5. Wooden Pallets: The bundles are typically placed on wooden pallets to provide support and stability during transportation. The wooden pallets also make it easier to load and unload the material from trucks or containers.
By following standard packing procedures, TAP Viet Nam International Investment Joint Stock Company ensures that Welded Steel Tube E600, EN 10305-3 is delivered to the customer in good condition and meets the required specifications. The standard packing process also helps to reduce the risk of damage or loss during transportation and storage, ensuring that the customer receives the material they need, when they need it.

 
Supplier
TAP Viet Nam International Investment Joint Stock Company (TAP Viet Nam) is a leading supplier of Welded Steel Tube E600, EN 10305-3. With a commitment to quality and customer satisfaction, TAP Viet Nam has established itself as a trusted supplier of high-quality steel tubes for various industrial applications.
Welded Steel Tube E600, EN 10305-3 is a high-strength steel tube that is designed for use in applications that require excellent mechanical properties and good weldability. This steel tube is commonly used in the manufacturing of hydraulic cylinders, automotive components, and other industrial applications that require high-strength and reliable performance.
TAP Viet Nam produces Welded Steel Tube E600, EN 10305-3 using advanced manufacturing processes and state-of-the-art technology. The company has a team of highly skilled and experienced engineers and technicians who ensure that the material meets the required standards and specifications.
One of the key advantages of Welded Steel Tube E600, EN 10305-3 is its excellent mechanical properties. This steel tube has a minimum yield strength of 600 MPa and a minimum tensile strength of 650 MPa. It also has excellent elongation properties, making it ideal for applications that require high-strength and good ductility.
TAP Viet Nam also conducts thorough inspection and testing of Welded Steel Tube E600, EN 10305-3 to ensure that it meets the required standards and specifications. The company uses advanced testing equipment and techniques to test the material for various properties such as mechanical strength, chemical composition, and surface finish.
In addition to producing high-quality steel tubes, TAP Viet Nam also provides excellent customer service and support. The company has a team of knowledgeable and experienced professionals who work closely with customers to understand their specific needs and requirements. TAP Viet Nam also offers customized solutions to meet the unique needs of each customer, ensuring that they receive the right material for their specific application.
In conclusion, TAP Viet Nam International Investment Joint Stock Company is a reliable and trusted supplier of Welded Steel Tube E600, EN 10305-3. With a commitment to quality, advanced manufacturing processes, and excellent customer service, TAP Viet Nam provides high-quality steel tubes for various industrial applications. Whether you are in the automotive, construction, or manufacturing industry, TAP Viet Nam has the right material for your specific needs. Contact TAP Viet Nam today to learn more about their products and services.

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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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Mr. Huân

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Mrs. Chinh

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Mrs. Yến

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Mrs. Thảo

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