Welded Steel tube E155, EN 10305-2
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 |
Product Name: | Welded Steel tube E155, EN 10305-2 | |||||||||||||||
The alternative name or alias of a product: | Welded Steel pipe E155, EN 10305-2 | ERW tube E155, EN 10305-2 | ||||||||||||||
Product Description: | ||||||||||||||||
• Material: E155, Steel Number 1.0033 • Type: Welded (ERW) •Standard EN 10305-2 • Size: • Outer Diameter (OD): OD4 to OD150 • Wall Thickness (WT): 0.5mm to 10mm • 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 |
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Chemical composition | ||||||||||||||||
Steel grade | % by mass | |||||||||||||||
Steel name | Steel number | Carbon. Max | Silicon. Max | Manganese. Max | Phosphorus. Max | Sulfur | Altotalmin. | |||||||||
E155 | 1.0033 | 0,11 | 0,35 | 0,70 | 0,025 | 0,025 | 0,015 | |||||||||
Mechanical Properties | ||||||||||||||||
The mechanical properties of welded steel tube E155, as specified in the European standard EN 10305-2, are important to ensure that the tube meets the requirements for its intended use. The standard specifies the chemical composition and mechanical properties of steel tubes made from either hot-rolled or cold-rolled steel strips. 1. Tensile strength: The tensile strength of E155 welded steel tube is at least 320 MPa, which means the tube can withstand a pulling force of 320 MegaPascals without breaking. This property is important to ensure that the tube can withstand the loads and stresses it may encounter during its service life. 2. Yield strength: The yield strength of E155 welded steel tube is at least 155 MPa, which is the amount of stress required to permanently deform the tube. This property is important to ensure that the tube can be safely loaded without deforming beyond its elastic limit. 3. Elongation: The elongation of E155 welded steel tube is at least 25%, which is the amount of deformation that occurs before the tube breaks. This property is important to ensure that the tube can undergo deformation without cracking or breaking. 4. Hardness: The hardness of E155 welded steel tube is typically between 130 and 190 HV (Vickers hardness), which is a measure of the tube's resistance to indentation. This property is important to ensure that the tube can withstand wear and tear from abrasion and impact. 5. Impact strength: The impact strength of E155 welded steel tube is measured by its energy absorption capacity during an impact. The minimum impact energy value is 27 J at room temperature. This property is important to ensure that the tube can withstand sudden impacts without breaking. In summary, the mechanical properties of welded steel tube E155, EN 10305-2, are crucial to ensure that the tube can withstand the loads and stresses it may encounter during its service life. The properties include tensile strength, yield strength, elongation, hardness, and impact strength, which are all important factors in determining the tube's suitability for its intended use. |
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Inspection and testing | ||||||||||||||||
EN 10305-2 is a European standard that specifies the technical delivery conditions for welded steel tubes made of low-carbon steel for use in mechanical and general engineering purposes. The standard applies to welded tubes with a circular cross-section and a wall thickness range of 0.5mm to 5mm. One of the grades specified in EN 10305-2 is E155, which refers to a low-carbon steel with a maximum carbon content of 0.08%. Inspection and testing of welded steel tube E155 in accordance with EN 10305-2 involves various procedures to ensure that the product meets the required specifications and standards. The inspection and testing procedures may include the following: 1. Visual inspection: This is the first and most basic step of inspection. It involves a visual examination of the welded steel tube to check for any visible defects, such as cracks, porosity, and lack of fusion. The surface finish and overall appearance of the tube are also checked. 2. Dimensional inspection: The dimensions of the welded steel tube, including its outer diameter, wall thickness, and length, are measured using calibrated instruments. The measurements are compared with the specified dimensions in EN 10305-2 to ensure that they are within the allowed tolerances. 3. Chemical analysis: A sample of the welded steel tube is taken and subjected to a chemical analysis to determine its composition, including the percentage of carbon, manganese, phosphorus, sulfur, and other elements. The chemical analysis is used to verify that the steel used in the tube meets the requirements of E155 as specified in EN 10305-2. 4. Mechanical testing: Mechanical testing is performed to evaluate the strength, ductility, and toughness of the welded steel tube. The mechanical properties tested may include tensile strength, yield strength, elongation, and impact strength. The results of the mechanical tests are compared with the requirements of EN 10305-2 to ensure that the welded steel tube meets the necessary mechanical properties. 5. Non-destructive testing: Non-destructive testing methods, such as ultrasonic testing, magnetic particle testing, and dye penetrant testing, may be used to detect any internal or surface defects in the welded steel tube. Non-destructive testing is particularly useful for detecting defects that may not be visible during visual inspection. 6. Hydrostatic testing: Hydrostatic testing involves filling the welded steel tube with water and pressurizing it to a specified level. The tube is then inspected for leaks or any other defects that may have been missed during visual inspection. Overall, the inspection and testing of welded steel tube E155 in accordance with EN 10305-2 are essential to ensure that the product meets the necessary requirements for use in mechanical and general engineering applications. |
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Pressure and Temperature Ratings | ||||||||||||||||
Welded steel tube E155 is a low-carbon, cold-drawn, welded precision steel tube, which is commonly used in hydraulic and pneumatic systems. The E155 designation refers to the minimum yield strength of 155 N/mm². EN 10305-2 is the European standard that specifies the technical delivery conditions for welded cold-drawn steel tubes of circular cross-section for precision applications. This standard provides requirements for dimensions, tolerances, and technical conditions for delivery, including mechanical properties, chemical composition, and testing methods. The pressure rating and temperature for welded steel tube E155, as specified by EN 10305-2, depend on several factors such as the wall thickness, diameter, and material properties. The pressure rating of the tube is determined by its maximum allowable working pressure (MAWP), which is the maximum pressure the tube can withstand under normal operating conditions. The temperature range for welded steel tube E155 is typically between -20°C to +120°C (-4°F to +248°F). This temperature range is suitable for most hydraulic and pneumatic applications that use this type of tubing. However, it is important to note that the temperature range may vary depending on the specific application, fluid type, and other operating conditions. In general, the pressure rating and temperature range for welded steel tube E155 should be determined based on the specific application requirements and in accordance with the relevant industry standards and regulations. It is recommended to consult with a qualified engineer or technical expert for guidance on selecting the appropriate tubing for a particular application. |
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Surface Treatment | ||||||||||||||||
Surface treatment of welded steel tube E155, as per EN 10305-2 standard, refers to a process that is carried out to enhance the surface properties of the tube, such as its appearance, resistance to corrosion, and durability. This standard specifies the requirements for electric welded steel tubes for precision applications, such as hydraulic systems, automotive, and mechanical engineering. The surface treatment process typically involves the following steps: 1. Cleaning: The first step in surface treatment is to remove any dirt, rust, or other contaminants from the surface of the tube. This can be achieved by using a variety of cleaning methods, such as solvent cleaning, mechanical cleaning, or chemical cleaning. 2. Pickling: Once the surface is clean, the tube may be pickled to remove any residual scale or oxide layer that may be present. Pickling is usually carried out using a mixture of hydrochloric acid and water, which dissolves the scale and leaves a clean surface. 3. Passivation: After pickling, the surface of the tube may be passivated to enhance its resistance to corrosion. This involves treating the surface with a solution of nitric acid, which forms a thin layer of oxide on the surface of the tube, protecting it from further corrosion. 4. Coating: The final step in surface treatment is to apply a coating to the surface of the tube. The type of coating used will depend on the intended application of the tube. Common types of coatings include zinc plating, epoxy coating, or powder coating. The surface treatment process is essential for ensuring that the welded steel tube meets the required specifications for its intended use. By enhancing the surface properties of the tube, the process can improve its appearance, durability, and resistance to corrosion, ultimately prolonging the life of the tube and reducing maintenance costs. |
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Standard marking for steel tubes | ||||||||||||||||
EN 10305-2 is a European standard that specifies the technical delivery conditions for welded cold-drawn steel tubes made of circular cross-sections for precision applications. The steel grade E155 refers to the minimum yield strength of 155 N/mm². The standard marking of a welded steel tube E155 according to EN 10305-2 includes the following information: 1. Manufacturer's name or trademark 2. Steel grade: E155 3. Dimensions: Outer diameter (OD) and wall thickness (WT) in millimeters or inches 4. Heat number: A unique number assigned to a specific batch of tubes for traceability purposes 5. Inspection symbol: A mark indicating the type of inspection carried out, such as EN 10204 Type 2.2 or 3.1 6. Marking symbol: A symbol indicating the type of marking, such as "Paint-stencilled" or "Stickered" 7. Additional marking: Optional additional information, such as customer-specific markings or special testing requirements The standard marking is usually applied to the tube surface using a paint or ink stencil or a metal stamping tool. The marking should be clear, legible, and durable throughout the lifetime of the tube. In addition to the standard marking, EN 10305-2 requires that the tubes be supplied with a test report that includes the following information: 1. Chemical composition: The percentages of the main elements in the steel, such as carbon, manganese, and silicon 2. Mechanical properties: The yield strength, tensile strength, and elongation of the steel 3. Non-destructive testing (NDT): The type of NDT carried out, such as eddy current or ultrasonic testing, and the results 4. Dimensional inspection: The measured dimensions of the tubes, including OD, WT, and length 5. Visual inspection: The results of a visual inspection for defects such as cracks, porosity, and surface roughness The test report should also include the heat number, inspection symbol, and marking symbol as indicated on the tube surface. |
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Standard packing for steel Tubes | ||||||||||||||||
Welded steel tube E155, EN 10305-2 is a type of cold drawn welded precision steel tube that is used for a wide range of applications, including mechanical engineering and automotive industry. The standard packing for this type of tube typically involves the following steps: 1. Bundling: The tubes are first bundled together into a manageable size for shipping and storage. The bundling is done using steel straps or nylon bands that are tightly wound around the tubes to keep them in place. 2. Protection: Once the tubes are bundled, they are often coated with a layer of rust inhibitor or oil to protect them from corrosion during transport and storage. This also helps to keep the tubes clean and free from dirt and debris. 3. Labeling: The bundles are then labeled with important information such as the type of steel, the dimensions of the tubes, the heat number, and the production date. This information is important for traceability and quality control. 4. Stacking: The labeled bundles are then stacked on wooden pallets or in metal racks for shipment. Care is taken to ensure that the bundles are stacked evenly and securely to prevent damage during transport. 5. Shipment: The final step in the standard packing process is to load the bundles onto trucks or shipping containers for transport. The tubes are typically shipped in bulk to manufacturers, distributors, or end users who will use them in various applications. Overall, the standard packing process for welded steel tube E155, EN 10305-2 is designed to protect the tubes from damage and ensure that they arrive at their destination in good condition. By bundling, protecting, labeling, stacking, and shipping the tubes carefully, manufacturers can ensure that their customers receive high-quality products that meet their specifications and needs. |
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Supplier | ||||||||||||||||
TAP Viet nam International Investment Joint Stock Company (TAP Viet nam) is a leading supplier of Welded Steel Tube E155, EN 10305-2 in Vietnam. Established in 2016, TAP Viet nam has rapidly gained a reputation for providing high-quality products and services to its clients in the construction, automotive, and mechanical industries. Welded Steel Tube E155, EN 10305-2 is a precision steel tube that is widely used in various applications, including hydraulic and pneumatic systems, automotive parts, and general engineering. It is made from high-quality steel and undergoes a strict manufacturing process to ensure its durability, strength, and resistance to corrosion. TAP Viet nam's Welded Steel Tube E155, EN 10305-2 is produced in compliance with international standards and undergoes rigorous testing to ensure its quality. The company has invested in state-of-the-art equipment and technology to ensure that its products meet the highest standards of precision and accuracy. TAP Viet nam's team of experts has years of experience in the steel industry and is committed to providing excellent customer service. The company's sales and technical teams work closely with clients to understand their specific requirements and provide tailored solutions to meet their needs. TAP Viet nam's customer-centric approach has helped the company build long-term relationships with its clients, who trust its products and services. Apart from Welded Steel Tube E155, EN 10305-2, TAP Viet nam also offers a wide range of other steel products, including cold-rolled steel coils, hot-dipped galvanized steel coils, and pre-painted galvanized steel coils. The company's diverse product range and expertise in the steel industry make it a one-stop-shop for all steel-related requirements. In addition to its focus on quality and customer service, TAP Viet nam is also committed to sustainability. The company has implemented environmentally friendly practices in its operations, such as reducing its carbon footprint and minimizing waste generation. TAP Viet nam believes that sustainable practices are essential for the long-term success of its business and the well-being of the planet. In conclusion, TAP Viet nam International Investment Joint Stock Company is a reliable supplier of Welded Steel Tube E155, EN 10305-2 in Vietnam. The company's commitment to quality, customer service, and sustainability has helped it become a trusted partner for clients in various industries. With its state-of-the-art equipment, experienced team, and diverse product range, TAP Viet nam is well-positioned to meet the growing demand for high-quality steel products in Vietnam and beyond. |
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Dimension Welded cold drawn tubes EN 10305-2 EN 10305-2 specifies the technical delivery conditions for welded cold-drawn steel tubes of circular cross-section used in hydraulic and pneumatic power systems. The nominal tube size refers to the outside diameter (OD) of the tube. The nominal tube sizes for welded cold-drawn tubes according to EN 10305-2 range from 4mm to 250mm. The standard specifies the tolerances for the OD, wall thickness, and ovality of the tubes, as well as the minimum values for the mechanical properties such as yield strength and tensile strength. Here are the nominal tube sizes and tolerances specified by EN 10305-2: • Nominal tube sizes: 4mm, 5mm, 6mm, 8mm, 10mm, 12mm, 14mm, 15mm, 16mm, 18mm, 20mm, 22mm, 25mm, 28mm, 30mm, 32mm, 35mm, 38mm, 40mm, 42mm, 45mm, 48mm, 50mm, 55mm, 60mm, 63mm, 65mm, 70mm, 76mm, 80mm, 85mm, 90mm, 100mm, 110mm, 120mm, 125mm, 130mm, 140mm, 150mm, 160mm, 180mm, 200mm, 220mm, 250mm. • Tolerances for OD: ±0.05mm for tubes up to 22mm OD, and ±0.1mm for tubes with OD greater than 22mm. • Tolerances for wall thickness: ±10% or ±0.2mm, whichever is greater. • Tolerances for ovality: maximum 50% of the OD tolerance. It's important to note that these nominal tube sizes and tolerances may vary depending on the manufacturer and the specific application requirements. |
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Dimension Welded cold drawn tubes EN 10305-2 | ||||||||||||||||||||||
Specified outside diameter D and tolerances |
Wall thickness T mm | |||||||||||||||||||||
0,5 | 0,8 | 1 | 1,2 | 1,5 | 1.8 | 2 | 2,2 | 2,5 | 2,8 | 3 | 3,5 | 4 | 4,5 | 5 | 5,5 | 6 | 7 | 8 | 9 | 10 | ||
Specified inside diameter d and tolerances | ||||||||||||||||||||||
4 | ±0,08 | 3 ± 0,15 | 2,4 ± 0,15 | 2 ± 0,15 | ||||||||||||||||||
5 | 4 ± 0,15 | 3,4 ± 0,15 | 3 ± 0,15 | |||||||||||||||||||
6 | 5 ± 0,15 | 4,4 ± 0,15 | 4 ± 0,15 | |||||||||||||||||||
7 | 6 ± 0,15 | 5,4 ± 0,15 | 5 ± 0,15 | 4,6 ± 0,15 | 4 ± 0,15 | |||||||||||||||||
8 | 7 ± 0,15 | 6,4 ± 0,15 | 6 ± 0,15 | 5,6 ± 0,15 | 5 ± 0,15 | |||||||||||||||||
9 | 8 ± 0,15 | 7,4 ± 0,15 | 7 ± 0,15 | 6,6 ± 0,15 | 6 ± 0,15 | |||||||||||||||||
10 | 9 ± 0,15 | 8,4 ± 0,15 | 8 ± 0,15 | 7,6 ± 0,15 | 7 ± 0,15 | 6,4 ± 0,15 | 6 ± 0,15 | |||||||||||||||
12 | 11 ± 0,15 | 10,4 ± 0,15 | 10 ± 0,15 | 9,6 ± 0,15 | 9 ± 0,15 | 8,4 ± 0,15 | 8 ± 0,15 | |||||||||||||||
14 | 13 ± 0,08 | 12.4 ± 0,08 | 12 ± 0,08 | 11,6 ± 0,15 | 11 ± 0,15 | 10,4 ± 0,15 | 10 ± 0,15 | 9,6 ± 0,15 | 9 ± 0,15 | |||||||||||||
15 | 14 ± 0,08 | 13,4 ± 0,08 | 13 ± 0,08 | 12,6 ± 0,08 | 12 ± 0,15 | 11,4 ± 0,15 | 11 ± 0,15 | 10,6 ± 0,15 | 10 ± 0,15 | |||||||||||||
16 | 15 ± 0,08 | 14,4 ± 0,08 | 14 ± 0,08 | 13,6 ± 0,08 | 13 ± 0,08 | 12,4 ± 0,15 | 12 ± 0,15 | 11,6 ± 0,15 | 11 ± 0,15 | |||||||||||||
18 | 17 ± 0,08 | 16,4 ± 0,08 | 16 ± 0,08 | 15,6 ± 0,08 | 15 ± 0,08 | 14,4 ± 0,08 | 14 ± 0,08 | 13,6 ± 0,15 | 13 ± 0,15 | 12,4 ± 0,15 | 12 ± 0,15 | 11 ± 0,15 | ||||||||||
20 | 19 ± 0,08 | 18,4 ± 0,08 | 18 ± 0,08 | 17,6 ± 0,08 | 17 ± 0,08 | 16,4 ± 0,08 | 16 ± 0,08 | 15,6 ± 0,15 | 15 ± 0,15 | 14,4 ± 0,15 | 14 ± 0,15 | 13 ± 0,15 | 12 ± 0,15 | |||||||||
22 | 21 ± 0,08 | 20,4 ± 0,08 | 20 ± 0,08 | 19,6 ± 0,08 | 19 ± 0,08 | 18,4 ± 0,08 | 18 ± 0,08 | 17,6 ± 0,08 | 17 ± 0,15 | 16,4 ± 0,15 | 16 ± 0,15 | 15 ± 0,15 | 14 ± 0,15 | |||||||||
25 | 24 ± 0,08 | 23,4 ± 0,08 | 23 ± 0,08 | 22,6 ± 0,08 | 22 ± 0,08 | 21,4 ± 0,08 | 21 ± 0,08 | 20,6 ± 0,08 | 20 ± 0,08 | 19,4 ± 0,15 | 19 ± 0,15 | 18 ± 0,15 | 17 ± 0,15 | 16 ± 0,15 | ||||||||
26 | 25 ± 0,08 | 24,4 ± 0,08 | 24 ± 0,08 | 23,6 ± 0,08 | 23 ± 0,08 | 22,4 ± 0,08 | 22 ± 0,08 | 21,6 ± 0,08 | 21 ± 0,08 | 20,4 ± 0,15 | 20 ± 0,15 | 19 ± 0,15 | 18 ± 0,15 | 17 ± 0,15 | ||||||||
28 | 27 ± 0,08 | 26,4 ± 0,08 | 26 ± 0,08 | 25,6 ± 0,08 | 25 ± 0,08 | 24,4 ± 0,08 | 24 ± 0,08 | 23,6 ± 0,08 | 23 ± 0,08 | 22,4 ± 0,08 | 22 ± 0,15 | 21 ± 0,15 | 20 ± 0,15 | 19 ± 0,15 | ||||||||
30 | 29 ± 0,08 | 28,4 ± 0,08 | 28 ± 0,08 | 27,6 ± 0,08 | 27 ± 0,08 | 26,4 ± 0,08 | 26 ± 0,08 | 25,6 ± 0,08 | 25 ± 0,08 | 24,4 ± 0,08 | 24 ± 0,15 | 23 ± 0,15 | 22 ± 0,15 | 21 ± 0,15 | 20 ± 0,15 | |||||||
32 | ±0,15 | 31 ± 0,15 | 30,4 ± 0,15 | 30 ± 0,15 | 29,6 ± 0,15 | 29 ± 0,15 | 28,4 ± 0,15 | 28 ± 0,15 | 27,6 ± 0,15 | 27 ± 0,15 | 26,4 ± 0,15 | 26 ± 0,15 | 25 ± 0,15 | 24 ± 0,15 | 23 ± 0,15 | 22 ± 0,15 | ||||||
35 | 34 ± 0,15 | 33,4 ± 0,15 | 33 ± 0,15 | 32,6 ± 0,15 | 32 ± 0,15 | 31,4 ± 0,15 | 31 ± 0,15 | 30,6 ± 0,15 | 30 ± 0,15 | 29,4 ± 0,15 | 29 ± 0,15 | 28 ± 0,15 | 27 ± 0,15 | 26 ± 0,15 | 25 ± 0,15 | |||||||
38 | 37 ± 0,15 | 36,4 ± 0,15 | 36 ± 0,15 | 35,6 ± 0,15 | 35 ± 0,15 | 34,4 ± 0,15 | 34 ± 0,15 | 33,6 ± 0,15 | 33 ± 0,15 | 32,4 ± 0,15 | 32 ± 0,15 | 31 ± 0,15 | 30 ± 0,15 | 29 ± 0,15 | 28 ± 0,15 | 27 ± 0,15 | ||||||
40 | 39 ± 0,15 | 38,4 ± 0,15 | 38 ± 0,15 | 37,6 ± 0,15 | 37 ± 0,15 | 36,4 ± 0,15 | 36 ± 0,15 | 35,6 ± 0,15 | 35 ± 0,15 | 34,4 ± 0,15 | 34 ± 0,15 | 33 ± 0,15 | 32 ± 0,15 | 31 ± 0,15 | 30 ± 0,15 | 29 ± 0,15 | ||||||
42 | ±0,20 | 40 ± 0,20 | 39,6 ± 0,20 | 39 ± 0,20 | 38,4 ± 0,20 | 38 ± 0,20 | 37,6 ± 0,20 | 37 ± 0,20 | 36,4 ± 0,20 | 36 ± 0,20 | 35 ± 0,20 | 34 ± 0,20 | 33 ± 0,20 | 32 ± 0,20 | 31 ± 0,20 | |||||||
45 | 43 ± 0,20 | 42,6 ± 0,20 | 42 ± 0,20 | 41,4 ± 0,20 | 41 ± 0,20 | 40,6 ± 0,20 | 40 ± 0,20 | 39,4 ± 0,20 | 39 ± 0,20 | 38 ± 0,20 | 37 ± 0,20 | 36 ± 0,20 | 35 ± 0,20 | 34 ± 0,20 | 33 ± 0,20 | |||||||
48 | 46 ± 0,20 | 45,6 ± 0,20 | 45 ± 0,20 | 44,4 ± 0,20 | 44 ± 0,20 | 43,6 ± 0,20 | 43 ± 0,20 | 42,4 ± 0,20 | 42 ± 0,20 | 41 ± 0,20 | 40 ± 0,20 | 39 ± 0,20 | 38 ± 0,20 | 37 ± 0,20 | 36 ± 0,20 | |||||||
50 | 48 ± 0,20 | 47,6 ± 0,20 | 47 ± 0,20 | 46,4 ± 0,20 | 46 ± 0,20 | 45,6 ± 0,20 | 45 ± 0,20 | 44,4 ± 0,20 | 44 ± 0,20 | 43 ± 0,20 | 42 ± 0,20 | 41 ± 0,20 | 40 ± 0,20 | 39 ± 0,20 | 38 ± 0,20 | |||||||
55 | ±0,25 | 53 ± 0,25 | 52,6 ± 0,25 | 52 ± 0,25 | 51,4 ± 0,25 | 51 ± 0,25 | 50,6 ± 0,25 | 50 ± 0,25 | 49,4 ± 0,25 | 49 ± 0,25 | 48 ± 0,25 | 47 ± 0,25 | 46 ± 0,25 | 45 ± 0,25 | 44 ± 0,25 | 43 ± 0,25 | 41 ± 0,25 | |||||
60 | 58 ± 0,25 | 57,6 ± 0,25 | 57 ± 0,25 | 56,4 ± 0,25 | 56 ± 0,25 | 55,6 ± 0,25 | 55 ± 0,25 | 54,4 ± 0,25 | 54 ± 0,25 | 53 ± 0,25 | 52 ± 0,25 | 51 ± 0,25 | 50 ± 0,25 | 49 ± 0,25 | 48 ± 0,25 | 46 ± 0,25 | ||||||
65 | ±0,30 | 63 ± 0,30 | 62,6 ± 0,30 | 62 ± 0,30 | 61,4 ± 0,30 | 61 ± 0,30 | 60,6 ± 0,30 | 60 ± 0,30 | 59,4 ± 0,30 | 59 ± 0,30 | 58 ± 0,30 | 57 ± 0,30 | 56 ± 0,30 | 55 ± 0,30 | 54 ± 0,30 | 53 ± 0,30 | 51 ± 0,30 | |||||
70 | 68 ± 0,30 | 67,6 ± 0,30 | 67 ± 0,30 | 66,4 ± 0,30 | 66 ± 0,30 | 65,6 ± 0,30 | 65 ± 0,30 | 64,4 ± 0,30 | 64 ± 0,30 | 63 ± 0,30 | 62 ± 0,30 | 61 ± 0,30 | 60 ± 0,30 | 59 ± 0,30 | 58 ± 0,30 | 56 ± 0,30 | ||||||
75 | ±0,35 | 73 ± 0,35 | 72,6 ± 0,35 | 72 ± 0,35 | 71,4 ± 0,35 | 71 ± 0,35 | 70,6 ± 0,35 | 70 ± 0,35 | 69,4 ± 0,35 | 69 ± 0,35 | 68 ± 0,35 | 67 ± 0,35 | 66 ± 0,35 | 65 ± 0,35 | 64 ± 0,35 | 63 ± 0,35 | 61 ± 0,35 | 59 ± 0,35 | ||||
80 | 78 ± 0,35 | 77,6 ± 0,35 | 77 ± 0,35 | 76,4 ± 0,35 | 76 ± 0,35 | 75,6 ± 0,35 | 75 ± 0,35 | 74,4 ± 0,35 | 74 ± 0,35 | 73 ± 0,35 | 72 ± 0,35 | 71 ± 0,35 | 70 ± 0,35 | 69 ± 0,35 | 68 ± 0,35 | 66 ± 0,35 | 64 ± 0,35 | |||||
85 | ±0,40 | 82 ± 0,40 | 81,4 ± 0,40 | 81 ± 0,40 | 80,6 ± 0,40 | 80 ± 0,40 | 79,4 ± 0,40 | 79 ± 0,40 | 78 ± 0,40 | 77 ± 0,40 | 76 ± 0,40 | 75 ± 0,40 | 74 ± 0,40 | 73 ± 0,40 | 71 ± 0,40 | 69 ± 0,40 | ||||||
90 | 87 ± 0,40 | 86,4 ± 0,40 | 86 ± 0,40 | 85,6 ± 0,40 | 85 ± 0,40 | 84,4 ± 0,40 | 84 ± 0,40 | 83 ± 0,40 | 82 ± 0,40 | 81 ± 0,40 | 80 ± 0,40 | 79 ± 0,40 | 78 ± 0,40 | 76 ± 0,40 | 74 ± 0,40 | |||||||
95 | ±0,45 | 91 ± 0,45 | 90,6 ± 0,45 | 90 ± 0,45 | 89,4 ± 0,45 | 89 ± 0,45 | 88 ± 0,45 | 87 ± 0,45 | 86 ± 0,45 | 85 ± 0,45 | 84 ± 0,45 | 83 ± 0,45 | 81 ± 0,45 | 79 ± 0,45 | ||||||||
100 | 96 ± 0,45 | 95,6 ± 0,45 | 95 ± 0,45 | 94,4 ± 0,45 | 94 ± 0,45 | 93 ± 0,45 | 92 ± 0,45 | 91 ± 0,45 | 90 ± 0,45 | 89 ± 0,45 | 88 ± 0,45 | 86 ± 0,45 | 84 ± 0,45 | 82 ± 0,45 | 80 ± 0,45 | |||||||
110 | ±0,50 | 106 ±0,50 | 105,6 ±0,50 | 105 ±0,50 | 104,4 ± 0,50 | 104 ±0,50 | 103 ±0,50 | 102 ±0,50 | 101 ± 0,50 | 100 ±0,50 | 99 ± 0,50 | 98 ± 0,50 | 96 ± 0,50 | 94 ± 0,50 | 92 ± 0,50 | 90 ± 0,50 | ||||||
120 | 116 ±0,50 | 115,6 ±0,50 | 115 ±0,50 | 114,4 ± 0,50 | 114 ±0,50 | 113 ±0,50 | 112 ±0,50 | 111 ± 0,50 | 110 ±0,50 | 109 ±0,50 | 108 ± 0,50 | 106 ±0,50 | 104 ±0,50 | 102 ±0,50 | 100 ± 0,50 | |||||||
130 | ±0,70 | 125 ±0,70 | 124,4 ± 0,70 | 124 ±0,70 | 123 ±0,70 | 122 ±0,70 | 121 ± 0,70 | 120 ±0,70 | 119 ±0,70 | 118 ± 0,70 | 116 ±0,70 | 114 ±0,70 | 112 ±0,70 | 110 ± 0,70 | ||||||||
140 | 135 ±0,70 | 134,4 ± 0,70 | 134 ±0,70 | 133 ±0,70 | 132 ±0,70 | 131 ± 0,70 | 130 ±0,70 | 129 ±0,70 | 128 ± 0,70 | 126 ±0,70 | 124 ±0,70 | 122 ±0,70 | 120 ± 0,70 | |||||||||
150 | ±0,80 | 144 ±0,80 | 143 ±0,80 | 142 ±0,80 | 141 ± 0,80 | 140 ±0,80 | 139 ±0,80 | 138 ± 0,80 | 136 ±0,80 | 134 ±0,80 | 132 ±0,80 | 130 ± 0,80 | ||||||||||
↑ T = 0,025 D ↑ T = 0,05 D |
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Hotline/ Zalo/ Wechat: 0964697067 |
TAP - HÀ NỘI
Chi nhánh Hà Nội
Address : Số 32 Lô N4D, đường X2A, Yên Sở, Hoàng Mai, Hà Nội
Phone : 0933 86 77 86 - Email : info@tapgroup.vn
TAP - HỒ CHÍ MINH
Chi nhánh Hồ Chí Minh
Address : 137 Quốc lộ 1A, Phường Bình Hưng Hòa Quận Bình Tân, Thành Phố Hồ Chí Minh
Phone : 0933 86 77 86 - Email : info@tapgroup.vn