Deprecated: Methods with the same name as their class will not be constructors in a future version of PHP; add_ckeditor_button has a deprecated constructor in /home/rdazpequ/public_html/wp-content/plugins/ckeditor-for-wordpress-master/plugins/nggallery/ckeditor.php on line 11
Rectangular Steel tube E600, EN-10305-5 - Tapgroup

Rectangular Steel tube E600, EN-10305-5

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

Deprecated: Function wp_make_content_images_responsive is deprecated since version 5.5.0! Use wp_filter_content_tags() instead. in /home/rdazpequ/public_html/wp-includes/functions.php on line 5413
Product Name:  Rectangular Steel tube E600, EN-10305-5
The alternative name or alias of a product:  Rectangular Steel tube E600, EN-10305-5
Product Description:
• Steel name: E600 Steel Number 1.0595
• Standard: EN-10305 Part 5
• Type: Welded (ERW)
• Size:
• Outer Diameter  15 to 120
• Wall Thickness (WT): 1mm to 4mm
• Length: 6000mm To 12000mm
• 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, 015
Mechanical Properties
Rectangular Steel Tube E600 is a type of steel tubing that is used in a variety of industrial applications. It is made from low carbon steel and conforms to the EN-10305-5 standard, which specifies the technical delivery conditions for electric-welded cold-formed steel tubes for hydraulic and pneumatic power systems.
The mechanical properties of rectangular steel tube E600 are determined by its composition and the manufacturing process used to produce it. Some of the key mechanical properties of rectangular steel tube E600 include:
1. Tensile strength: The tensile strength of rectangular steel tube E600 is typically in the range of 580-750 MPa. Tensile strength refers to the maximum amount of stress that a material can withstand before breaking.
2. Yield strength: The yield strength of rectangular steel tube E600 is typically in the range of 320-420 MPa. Yield strength refers to the amount of stress that a material can withstand before it starts to deform permanently.
3. Elongation: The elongation of rectangular steel tube E600 is typically in the range of 15-25%. Elongation refers to the amount of deformation that a material can undergo before it breaks.
4. Hardness: The hardness of rectangular steel tube E600 is typically in the range of 180-220 HV. Hardness refers to the resistance of a material to indentation or scratching.
5. Impact strength: The impact strength of rectangular steel tube E600 is typically in the range of 27-41 J. Impact strength refers to the amount of energy that a material can absorb before it fractures.
It is important to note that these mechanical properties may vary depending on the specific manufacturing process used and the dimensions of the tube. It is therefore essential to consult the manufacturer's specifications for accurate information on the mechanical properties of rectangular steel tube E600.

 
 Inspection and testing 
Inspection and testing of rectangular steel tube E600, EN-10305-5 are important steps in ensuring that the tubing meets the required standards and specifications. The following are some of the common inspection and testing methods used for rectangular steel tube E600:
1. Visual inspection: Visual inspection involves examining the surface of the rectangular steel tube for defects such as cracks, dents, scratches, or other surface imperfections that could affect the performance of the tubing.
2. Dimensional inspection: Dimensional inspection involves measuring the dimensions of the rectangular steel tube, including its length, width, and thickness, to ensure that it meets the required specifications.
3. Chemical analysis: Chemical analysis involves testing the composition of the rectangular steel tube to ensure that it meets the required chemical specifications. This is typically done by taking a small sample of the tube and performing a chemical analysis on it.
4. Mechanical testing: Mechanical testing involves testing the mechanical properties of the rectangular steel tube, including its tensile strength, yield strength, elongation, hardness, and impact strength. This is typically done by taking a sample of the tube and subjecting it to various mechanical tests, such as tension and compression tests.
5. Ultrasonic testing: Ultrasonic testing involves using high-frequency sound waves to detect defects or imperfections in the rectangular steel tube. This method is particularly useful for detecting internal defects that may not be visible through visual inspection.
6. Eddy current testing: Eddy current testing involves using an alternating current to induce eddy currents in the rectangular steel tube. This method is used to detect surface defects such as cracks and pits.
7. Pressure testing: Pressure testing involves subjecting the rectangular steel tube to a specified pressure to ensure that it can withstand the required pressure without failure.
It is important to note that the specific inspection and testing methods used may vary depending on the requirements of the application and the specific standards and specifications that the rectangular steel tube is required to meet. Therefore, it is essential to consult the manufacturer's specifications to determine the appropriate inspection and testing methods for rectangular steel tube E600, EN-10305-5.

 
Pressure and Temperature Ratings
The pressure rating and temperature capabilities of rectangular steel tube E600, EN-10305-5 depend on several factors, including its size, wall thickness, and the specific application for which it is being used. The following information provides a general overview of the pressure rating and temperature capabilities of rectangular steel tube E600:
1. Pressure rating: The pressure rating of rectangular steel tube E600 is typically in the range of 250-500 bar, depending on the size and wall thickness of the tubing. The pressure rating is determined by the tensile strength, yield strength, and wall thickness of the tubing.
2. Temperature range: The temperature range for rectangular steel tube E600 is typically between -50°C and +80°C. The specific temperature range depends on the application and the specific requirements of the tubing.
It is important to note that the pressure rating and temperature capabilities of rectangular steel tube E600 may vary depending on the specific manufacturing process used and the dimensions of the tubing. It is therefore essential to consult the manufacturer's specifications for accurate information on the pressure rating and temperature capabilities of rectangular steel tube E600 for a particular application. Additionally, it is important to consider other factors such as corrosion resistance and compatibility with the media being transported when selecting tubing for a specific application.

 
Surface Treatment 
Rectangular Steel tube E600, EN-10305-5 is typically used in a variety of industrial applications where its high strength and durability are required. To enhance its corrosion resistance and improve its appearance, several surface treatment options are available. The following are some of the common surface treatment methods for rectangular steel tube E600:
1. Hot-dip galvanizing: This is a process that involves coating the rectangular steel tube with a layer of zinc to provide protection against corrosion. The tube is immersed in a bath of molten zinc, which bonds to the steel to create a protective layer. This method is commonly used in outdoor applications where the tubing is exposed to harsh environmental conditions.
2. Powder coating: Powder coating involves applying a layer of powdered paint to the rectangular steel tube, which is then heated to bond the powder to the surface of the tubing. The resulting coating provides a durable and attractive finish that is resistant to chipping, scratching, and fading. This method is commonly used in applications where the appearance of the tubing is important.
3. Electroplating: Electroplating involves coating the rectangular steel tube with a layer of metal, such as chrome or nickel, to provide protection against corrosion and improve its appearance. The process involves immersing the tubing in a bath of the plating metal, which is then deposited on the surface of the steel by an electrical current.
4. Painting: Painting involves applying a layer of paint to the rectangular steel tube to protect it against corrosion and improve its appearance. The paint is typically applied using a spray gun or a roller, and a variety of paint types and colors are available.
It is important to note that the specific surface treatment method used may depend on the application, the environment in which the tubing will be used, and the specific requirements of the customer. Additionally, it is important to consult the manufacturer's specifications to ensure that the surface treatment method is compatible with the tubing and does not compromise its mechanical or chemical properties.

 
Standard marking for steel tubes
Rectangular Steel tube E600, EN-10305-5, is required to be marked with specific information to ensure proper identification and traceability. The following is the standard marking for rectangular steel tube E600:
1. Manufacturer's logo or identification mark: The manufacturer's logo or identification mark should be marked on the rectangular steel tube to identify the manufacturer or supplier of the tubing.
2. Steel grade: The steel grade of the rectangular steel tube should be marked on the tubing to indicate the material used in its manufacture.
3. Dimensional information: The outside dimensions, wall thickness, and length of the rectangular steel tube should be marked on the tubing to indicate its size and dimensional specifications.
4. Heat number: The heat number should be marked on the rectangular steel tube to identify the specific batch or lot of material used in its manufacture.
5. Standard specification: The EN-10305-5 standard specification should be marked on the rectangular steel tube to indicate that the tubing meets the required standards and specifications.
6. Traceability code: A traceability code, such as a serial number or bar code, should be marked on the rectangular steel tube to enable traceability of the tubing to its specific batch or lot of material.
It is important to note that the specific marking requirements may vary depending on the specific application and the requirements of the customer or end-user. Additionally, the marking should be legible, durable, and easily visible to ensure proper identification and traceability of the rectangular steel tube.

 
Standard packing for steel Tubes
Rectangular Steel tube E600, EN-10305-5, is typically packed and shipped in a way that ensures its protection from damage during transportation and storage. The following is the standard packing for rectangular steel tube E600:
1. Bundles: Rectangular steel tube E600 is usually packed in bundles, with each bundle containing a specific number of tubes. The bundles are typically secured with steel straps or wire ties to prevent the tubing from shifting or moving during transportation.
2. Plastic caps: Plastic caps are often used to protect the ends of the rectangular steel tube from damage during handling and transport. The caps are typically made from high-density polyethylene (HDPE) and are designed to fit snugly over the ends of the tubing.
3. Labeling: Each bundle of rectangular steel tube E600 is typically labeled with information such as the manufacturer's name or logo, steel grade, dimensional specifications, and heat number.
4. Shipping containers: The bundles of rectangular steel tube E600 are typically loaded into shipping containers for transport. The containers are typically made from steel and are designed to protect the tubing from damage during transit.
It is important to note that the specific packing requirements may vary depending on the specific application and the requirements of the customer or end-user. Additionally, the packing should be designed to ensure that the rectangular steel tube is protected from damage during handling, transportation, and storage, to prevent any degradation of its mechanical or chemical properties.

 
Supplier
TAP Viet nam International Investment Joint Stock Company (TAP Viet nam) is a leading supplier of Rectangular Steel tube E600, EN-10305-5, which is widely used in various industrial applications that require high strength and durability. The company is committed to providing its customers with high-quality products that meet their specific requirements, while also ensuring timely delivery and competitive pricing.
TAP Viet nam offers a wide range of Rectangular Steel tube E600, EN-10305-5, with various dimensions, wall thicknesses, and lengths to meet the specific needs of its customers. The company sources its steel tubing from reputable manufacturers who use the latest technology and techniques to produce high-quality tubing that meets the required standards and specifications.
In addition to supplying high-quality Rectangular Steel tube E600, EN-10305-5, TAP Viet nam also provides a range of value-added services to its customers. These include cutting, drilling, welding, and other fabrication services to ensure that the tubing meets the specific requirements of the customer's application.
TAP Viet nam is committed to ensuring the quality and traceability of its Rectangular Steel tube E600, EN-10305-5. The company has implemented a rigorous quality control system that ensures that all of its products are tested and inspected to meet the required standards and specifications. The tubing is also marked with specific information to ensure proper identification and traceability, including the manufacturer's logo, steel grade, dimensional information, heat number, standard specification, and traceability code.
In addition to its commitment to quality and customer service, TAP Viet nam also places a strong emphasis on environmental responsibility. The company adheres to strict environmental standards and regulations in all of its operations, and it strives to minimize its environmental impact through the use of sustainable practices and technologies.
Overall, TAP Viet nam is a reliable and trusted supplier of Rectangular Steel tube E600, EN-10305-5, with a strong commitment to quality, customer service, and environmental responsibility. The company's extensive experience and expertise in the steel tubing industry make it a valuable partner for customers seeking high-quality products and services at competitive prices.

 

Deprecated: Function wp_make_content_images_responsive is deprecated since version 5.5.0! Use wp_filter_content_tags() instead. in /home/rdazpequ/public_html/wp-includes/functions.php on line 5413
Dimensions and tolerances. Square and rectangular Steel tubes EN 10305-5
EN 10305-5 is a European standard that specifies the requirements for square and rectangular steel tubes used for mechanical and general engineering purposes. The standard specifies the dimensions and tolerances for these tubes, as well as the technical delivery conditions.
Dimensions:
The standard specifies the following dimensions for square and rectangular steel tubes:
1. Outer dimensions: The outer dimensions of the tubes shall be measured in millimeters and shall be within the range of 10 mm x 10 mm to 200 mm x 200 mm for square tubes and 10 mm x 15 mm to 150 mm x 200 mm for rectangular tubes.
2. Wall thickness: The wall thickness of the tubes shall be measured in millimeters and shall be within the range of 0.5 mm to 8 mm.
3. Length: The length of the tubes shall be measured in meters and shall be within the range of 3 m to 12 m.
Tolerances:
The standard specifies the following tolerances for square and rectangular steel tubes:
1. Outer dimensions: The outer dimensions of the tubes shall be within the tolerances specified in Table 1 of the standard. The tolerances vary depending on the size of the tube.
2. Wall thickness: The wall thickness of the tubes shall be within the tolerances specified in Table 2 of the standard. The tolerances vary depending on the size of the tube.
3. Length: The length of the tubes shall be within the tolerances specified in Table 3 of the standard. The tolerances vary depending on the length of the tube.
Technical delivery conditions:
The standard specifies the following technical delivery conditions for square and rectangular steel tubes:

1. Steel grades: The tubes shall be made of steel grades specified in the standard.
2. Manufacturing process: The tubes shall be manufactured by either cold drawing or cold rolling.
3. Surface conditions: The tubes shall be supplied with a smooth surface finish, free from defects such as cracks, laps, and seams.
4. Straightness: The tubes shall be straight and have a maximum deviation of 1 mm per meter of length.
5. Other requirements: The standard specifies other requirements such as chemical composition, mechanical properties, and non-destructive testing that the tubes shall meet.
Overall, EN 10305-5 provides a detailed specification for the dimensions, tolerances, and technical delivery conditions for square and rectangular steel tubes used in mechanical and general engineering applications.
Side length (s) Sizes, tolerances and mass per unit length
Dimensions in millimetres
H B (or H) Tolerance of
H and B
1 1.25 1.5 2 2.5 3 4
15 15 ±0,20 0.438 0.537 0.632 0.810      
20 10
15
20
±0,20 0,438
0,516
0,595
0,537
0,635
0,733
0,632
0,750
0,868
0,810
0,967
1,12
     
25 15
25
±0,25 0,595
0,752
0,733
0,930
0,868
1,10
1,12
1,44
     
30 10
15
20
30
±0,25 0,595
0,673
0,752
0,909
0,733
0,831
0,930
1,13
0,868
0,985
1,10
1,34
1,12
1,28
1,44
1,75
     
2.15 2.39
34 20 ±0,25 0.815 1.01 1.20 1.56      
35 20
25
35
±0,25 0,830
0,909
1,07
1,03
1,13
1,32
1,22
1,34
1,57
1,59
1,75
2,07
1,95
2,15
2,54
2,39
2,86
 
40 20
25
30
40
±0,30     1,34
1,46
1,57
1,81
1,75
1,91
2,07
2,38
2,15
2,34
2,54
2,93
2,39
2,63
2,86
3,33
 
4.25
45 45 ±0,30     2.05 2.69 3.33 3.80 4.88
50 20
25
30
40
50
±0,30     1,57
1,69
1,81
2,05
2,28
2,07
2,22
2,38
2,69
3,01
2,54
2,74
2,93
3,33
3,72
2,86
3,10
3,33
3,80
4,28
 
4,25
4,88
5,51
60 20
30
40
50
60
±0,35       2,38
2,69
3,01
3,32
3,64
2,93
3,33
3,72
4,11
4,50
3,33
3,80
4,28
4,75
5,22
4,88
5,51
6,14
6,76
70 40
70
±0,40       3,32
4,26
4,11
5,29
4,75
6,16
6,14
8,02
80 20
30
40
50
60
80
±0,50       3,01
3,32
3,64
3,95
4,26
4,89
3,72
4,11
4,50
4,90
5,29
6,07
4,28
4,75
5,22
5,69
6,16
7,10
6,76
7,39
8,02
9,28
90 90 ±0,60       5.52 6.86 8.04 10.5
100 40
50
60
80
100
±0,65       4,26
4,58
4,89
5,52
6,15
5,29
5,68
6,07
6,86
7,64
6,16
6,63
7,10
8,04
8,99
8,02
8,65
9,28
10,5
11,8
120 40
60
±0,70       4,89
5,52
6,07
6,86
7,10
8,04
9,28
10,5
tapgroup
tapgroup

Mr. Huân

tapgroup Email: info@tapgroup.vn
tapgroup Skype: info@tapgroup.vn
tapgroup Hotline/ Zalo/ Wechat: 0933 86 77 86
tapgroup

Mrs. Chinh

tapgroup Email: purchasing03-@tapgroup.vn
tapgroup Skype: purchasing03-@tapgroup.vn
tapgroup Hotline/ Zalo/ Wechat: 0964413291
tapgroup

Mrs. Yến

tapgroup Email: sale01@tapgroup.vn
tapgroup Skype: sale01@tapgroup.vn
tapgroup Hotline/ Zalo/ Wechat: 0964697066
tapgroup

Mrs. Thảo

tapgroup Email: purchasing01-@tapgroup.vn
tapgroup Skype: purchasing01-@tapgroup.vn
tapgroup Hotline/ Zalo/ Wechat: 0964697066
tapgroup

Mr. Khánh

tapgroup Email: sale04@tapgroup.vn
tapgroup Skype: sale04@tapgroup.vn
tapgroup Hotline/ Zalo/ Wechat: 0964697067
tapgroup