Welded Steel tube E235, EN 10305-2

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

Catalogue Profile

Description
Sizes

Product Name:			Welded Steel tube E235, EN 10305-2
The alternative name or alias of a product:			Welded Steel pipe E235, EN 10305-2			ERW tube E235, EN 10305-2
Product Description:
• Material: E235, Steel Number 1.0308 • 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












Chemical composition
Steel grade		% by mass
Steel name	Steel number	Carbon. Max	Silicon. Max	Manganese. Max	Phosphorus. Max	Sulfur	Copper	Chrom	Nickel
E235	1.0308	0.22%	0.55%	1.50%	0.025%	0.025%	0.30%	0.30%	0.30%
Mechanical Properties
The mechanical properties of Welded Steel Tube E235, EN 10305-2 are specified by the standard and are essential for evaluating the tube's suitability for various applications. These properties are determined by performing various tests on the tube, such as tensile, yield, elongation, and hardness tests. Here are the mechanical properties of Welded Steel Tube E235 as per EN 10305-2: • Tensile strength (Rm): The minimum tensile strength of E235 steel is 480 MPa. Tensile strength refers to the maximum stress that the steel can withstand before it breaks or fractures. It is a measure of the steel's ability to resist external forces and maintain its structural integrity. • Yield strength (ReH): The minimum yield strength of E235 steel is 235 MPa. Yield strength is the stress level at which the steel starts to deform permanently. It is a measure of the steel's ability to withstand deformation and return to its original shape after the load is removed. • Elongation (A): The minimum elongation of E235 steel is 25%. Elongation is the measure of the percentage increase in the length of the steel before it breaks or fractures. It is a measure of the steel's ductility and ability to deform before it fails. • Hardness: The hardness of E235 steel is specified as a range between 145-165 HV (Vickers hardness). Hardness is a measure of the steel's resistance to indentation and deformation. Higher hardness indicates higher strength and wear resistance. In summary, Welded Steel Tube E235, EN 10305-2 has a minimum yield strength of 235 MPa and a minimum tensile strength of 480 MPa, making it suitable for applications that require high strength and durability. The tube also has good elongation, indicating its ductility and ability to deform before failure. Additionally, the specified range of hardness makes it suitable for applications that require wear resistance.












Inspection and testing
Inspection and testing are essential processes in the manufacturing of Welded Steel Tube E235, EN 10305-2, as they ensure that the tube meets the specified requirements and is suitable for its intended use. The following are some of the standard inspection and testing methods that are used for Welded Steel Tube E235: • Visual inspection: The tube is visually inspected to check for any defects such as cracks, porosity, or surface imperfections. The diameter and thickness of the tube are also measured to ensure that they meet the specified tolerances. • Dimensional inspection: The dimensions of the tube, such as the outer diameter, wall thickness, and length, are measured to ensure that they meet the specified tolerances. • Ultrasonic testing: Ultrasonic testing is used to detect any defects or discontinuities in the tube's internal and external surfaces. This testing method uses high-frequency sound waves that penetrate the material and reflect back from any flaws or defects. • Eddy current testing: Eddy current testing is a non-destructive testing method that is used to detect surface defects or discontinuities in the tube. It works by inducing an electrical current into the material and measuring any changes in the current that are caused by defects or flaws. • Tensile testing: Tensile testing is used to determine the tube's mechanical properties, such as its yield strength, tensile strength, and elongation. A sample of the tube is pulled in tension until it breaks, and the load and deformation are measured to calculate the mechanical properties. • Hardness testing: Hardness testing is used to determine the tube's resistance to indentation or deformation. This testing method involves measuring the depth or size of an indentation that is made by a standardized indenter. In summary, inspection and testing are critical processes in the manufacturing of Welded Steel Tube E235, EN 10305-2, as they ensure that the tube meets the specified requirements and is suitable for its intended use. The inspection and testing methods include visual inspection, dimensional inspection, ultrasonic testing, eddy current testing, tensile testing, and hardness testing.













Pressure and Temperature Ratings
The pressure and temperature ratings of Welded Steel Tube E235, EN 10305-2 are determined based on the tube's mechanical properties and its ability to withstand high-pressure and temperature conditions without undergoing any deformation or failure. The pressure and temperature ratings of the tube are essential in determining its suitability for various applications. Here are the pressure and temperature ratings of Welded Steel Tube E235, EN 10305-2: • Maximum allowable pressure: The maximum allowable pressure for Welded Steel Tube E235 is determined based on the tube's mechanical properties and its dimensions. The pressure rating for the tube is calculated using the Barlow's formula, which takes into account the tube's wall thickness, outside diameter, and material properties. The maximum allowable pressure for Welded Steel Tube E235 is approximately 8000 psi (55 MPa). • Maximum allowable temperature: The maximum allowable temperature for Welded Steel Tube E235 is determined based on the tube's material properties and its ability to withstand high-temperature conditions without undergoing any deformation or failure. The maximum allowable temperature for the tube depends on the material's thermal expansion coefficient, thermal conductivity, and melting point. The maximum allowable temperature for Welded Steel Tube E235 is approximately 300°C. It is essential to note that the pressure and temperature ratings of Welded Steel Tube E235, EN 10305-2 are based on the tube's design and manufacturing standards. The actual pressure and temperature ratings may vary depending on the specific application, installation, and environmental conditions. Therefore, it is crucial to consult the manufacturer's specifications and guidelines when selecting and installing Welded Steel Tube E235 for any application. In summary, the maximum allowable pressure for Welded Steel Tube E235, EN 10305-2, is approximately 8000 psi (55 MPa), and the maximum allowable temperature is approximately 300°C. These ratings are determined based on the tube's mechanical properties, dimensions, and material properties and are essential in determining the tube's suitability for various applications.












Surface Treatment
Surface treatment is an essential process in the manufacturing of Welded Steel Tube E235, EN 10305-2, as it improves the tube's surface quality, corrosion resistance, and overall durability. The following are some of the standard surface treatment methods that are used for Welded Steel Tube E235: • Phosphating: Phosphating is a process that involves applying a phosphate coating to the tube's surface. The coating provides corrosion resistance and improves the tube's ability to hold lubricants and other protective coatings. • Galvanizing: Galvanizing is a process that involves coating the tube's surface with a layer of zinc to provide corrosion resistance. The galvanizing process can be performed using either hot-dip or electroplating methods. • Painting: Painting is a surface treatment method that involves applying a layer of paint or other protective coating to the tube's surface. The coating provides additional protection against corrosion and improves the tube's appearance. • Powder coating: Powder coating is a process that involves applying a dry powder to the tube's surface and then curing it with heat. The powder forms a durable coating that provides excellent corrosion resistance and improves the tube's appearance. • Anodizing: Anodizing is a surface treatment method that is used for aluminum tubes. The process involves creating a layer of oxide on the tube's surface, which provides corrosion resistance and improves the tube's appearance. It is essential to note that the choice of surface treatment method for Welded Steel Tube E235, EN 10305-2, depends on the specific application, environmental conditions, and aesthetic requirements. Therefore, it is crucial to consult the manufacturer's specifications and guidelines when selecting a surface treatment method for Welded Steel Tube E235. In summary, surface treatment is an essential process in the manufacturing of Welded Steel Tube E235, EN 10305-2. The standard surface treatment methods include phosphating, galvanizing, painting, powder coating, and anodizing. The choice of surface treatment method depends on the specific application and environmental conditions, and it is essential to consult the manufacturer's specifications and guidelines when selecting a surface treatment method.













Standard marking for steel tubes
Standard marking of Welded Steel Tube E235, EN 10305-2 is a crucial step in the manufacturing process as it provides information about the tube's material, dimensions, and other essential characteristics. The standard marking ensures that the tube meets the necessary standards and specifications and facilitates its identification during installation and maintenance. The following are the standard markings that are used for Welded Steel Tube E235, EN 10305-2: • Manufacturer's logo or trademark: The manufacturer's logo or trademark is usually stamped on the tube's surface, providing the manufacturer's identity. • Tube size and dimensions: The tube's size and dimensions, such as the outer diameter, wall thickness, and length, are typically marked on the tube's surface. • Material grade: The material grade of the tube, in this case, E235, is usually stamped or marked on the tube's surface. • EN 10305-2 standard designation: The EN 10305-2 standard designation is usually stamped or marked on the tube's surface, indicating that the tube meets the standard requirements. • Batch number or heat number: The batch number or heat number is typically stamped or marked on the tube's surface, providing information about the tube's manufacturing batch or heat treatment process. • Production date: The production date of the tube is usually marked on the tube's surface, providing information about when the tube was manufactured. • Other markings: Other markings may be added to the tube's surface as required by the specific application, such as pressure or temperature ratings, surface treatment information, and inspection or testing results. It is essential to note that the standard marking requirements for Welded Steel Tube E235, EN 10305-2, may vary depending on the specific application, industry, and country. Therefore, it is crucial to consult the manufacturer's specifications and guidelines to ensure that the tube's standard marking meets the necessary requirements. In summary, standard marking is a crucial step in the manufacturing of Welded Steel Tube E235, EN 10305-2. The standard markings typically include the manufacturer's logo or trademark, tube size and dimensions, material grade, EN 10305-2 standard designation, batch number or heat number, production date, and other markings as required. The standard marking ensures that the tube meets the necessary standards and specifications and facilitates its identification during installation and maintenance.














Standard packing for steel Tubes
Standard packing of Welded Steel Tube E235, EN 10305-2, is an important step in ensuring that the tube is protected during transportation and storage. The standard packing ensures that the tube is delivered to the customer in good condition and ready for use. The following are the standard packing methods that are used for Welded Steel Tube E235, EN 10305-2: • Plastic caps: Plastic caps are usually placed on both ends of the tube to protect the tube's ends from damage during transportation and handling. • Bundles: The tubes are usually packed in bundles and secured with steel straps to prevent the tubes from shifting during transportation. The bundle size may vary depending on the tube's size and length. • Protective wrapping: The tubes may be wrapped in protective material such as plastic or kraft paper to protect the tube's surface from scratches and other damage during transportation and handling. • Wooden boxes or crates: The tubes may be packed in wooden boxes or crates for added protection during transportation. The boxes or crates are usually lined with protective material such as foam or plastic to prevent damage to the tubes. It is important to note that the standard packing methods for Welded Steel Tube E235, EN 10305-2, may vary depending on the specific application, industry, and customer requirements. Therefore, it is important to consult the manufacturer's specifications and guidelines to ensure that the tube's standard packing meets the necessary requirements. In summary, standard packing is an important step in ensuring that Welded Steel Tube E235, EN 10305-2, is protected during transportation and storage. The standard packing methods usually include plastic caps, bundles, protective wrapping, and wooden boxes or crates. The standard packing methods may vary depending on the specific application and customer requirements, and it is important to consult the manufacturer's specifications and guidelines to ensure that the tube's standard packing meets the necessary requirements.











Supplier
TAP Viet nam International Investment Joint Stock Company (TAP Viet nam) is a reputable supplier of high-quality Welded Steel Tube E235, EN 10305-2, in Vietnam. With years of experience in the industry, TAP Viet nam has established itself as a reliable supplier that provides customers with quality products and excellent services. Welded Steel Tube E235, EN 10305-2, is a widely used product in various industries, including automotive, construction, and engineering. The tube is known for its high strength, durability, and corrosion resistance, making it suitable for use in demanding applications. TAP Viet nam supplies Welded Steel Tube E235, EN 10305-2, in various sizes and lengths to meet the diverse needs of its customers. One of the key strengths of TAP Viet nam is its commitment to quality. The company works closely with its suppliers to ensure that only high-quality materials are used in the production of Welded Steel Tube E235, EN 10305-2. TAP Viet nam also implements strict quality control measures throughout the production process to ensure that the tubes meet the necessary standards and specifications. In addition to quality, TAP Viet nam also places a strong emphasis on customer service. The company's team of experts is dedicated to providing customers with personalized services and technical support. TAP Viet nam works closely with its customers to understand their specific needs and requirements, and to provide them with tailored solutions that meet their unique needs. TAP Viet nam is also committed to sustainability and environmental responsibility. The company recognizes the importance of reducing its carbon footprint and minimizing its impact on the environment. TAP Viet nam works closely with its suppliers to ensure that sustainable practices are implemented throughout the production process, and that materials are sourced responsibly. In summary, TAP Viet nam International Investment Joint Stock Company is a reputable supplier of high-quality Welded Steel Tube E235, EN 10305-2, in Vietnam. The company's commitment to quality, customer service, and sustainability has earned it a strong reputation in the industry. With a team of experts dedicated to providing personalized services and technical support, TAP Viet nam is well-positioned to meet the diverse needs of its customers in Vietnam and beyond.

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.

Dimension Welded cold drawn tubes EN 10305-2

Specified outside diameter D and
tolerances

Wall thickness T mm

0,5

0,8

1,2

1,5

1.8

2,2

2,5

2,8

3,5

4,5

5,5

Specified inside diameter d and tolerances

±0,08

3 ± 0,15

2,4 ± 0,15

2 ± 0,15

4 ± 0,15

3,4 ± 0,15

3 ± 0,15

5 ± 0,15

4,4 ± 0,15

4 ± 0,15

6 ± 0,15

5,4 ± 0,15

5 ± 0,15

4,6 ± 0,15

4 ± 0,15

7 ± 0,15

6,4 ± 0,15

6 ± 0,15

5,6 ± 0,15

5 ± 0,15

8 ± 0,15

7,4 ± 0,15

7 ± 0,15

6,6 ± 0,15

6 ± 0,15

9 ± 0,15

8,4 ± 0,15

8 ± 0,15

7,6 ± 0,15

7 ± 0,15

6,4 ± 0,15

6 ± 0,15

11 ± 0,15

10,4 ± 0,15

10 ± 0,15

9,6 ± 0,15

9 ± 0,15

8,4 ± 0,15

8 ± 0,15

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

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

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

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

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

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

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

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

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

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

±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

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

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

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

±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

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

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

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

±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

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

±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

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

±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

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

±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

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

±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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