ASTM A36 S235jr S275jr S355 Ss400 Q235 Q345 Wide Flange Structural Welded Carbon Hea/Heb/Ipe Section Hot Rolled Universal Steel H Beams

Dec 22, 2025

Leave a message

Product Description

H-beam, because each part is arranged at right angles, so H-shaped steel has the advantages of strong bending resistance, simple construction, cost saving, light structure in all directions, etc. It is widely used in factories, high-rise buildings, bridges, lifting and transportation machinery, equipment foundation , brackets, foundation piles and other fields.

ASTM A36 S235jr S275jr S355 Ss400 Q235 Q345 Wide Flange Structural Welded Carbon Hea/Heb/Ipe Section Hot Rolled Universal Steel H Beams


ASTM A36 S235jr S275jr S355 Ss400 Q235 Q345 Wide Flange Structural Welded Carbon Hea/Heb/Ipe Section Hot Rolled Universal Steel H Beams

Product NameUniversal Steel Profile Column H beam or I beam
Size1.Web Width (H): 100-900mm
2.Flange Width (B): 100-300mm
3. Web Thickness (t1): 5-30mm
4. Flange Thickness (t2): 5-30mm
Length6m, 9m, 12m according to customer requirements
StandardASTM, JIS, SUS, DIN, EN,GB etc
MaterialA36 / A572 / SS400 / G50 / G60 / Q235B / Q345B / Q420C / Q460C / SS540 / S235 / S275 / S355
TechniqueHot rolled / welded
ApplicationConstruction structure
Price ItemFOB,CIF,CFR,EXW.
PackingExport standard packing or according to customers' requirement
Supply AbilityWithin10-15 workdays,25-30days when the quantity beyond 1000tons

ASTM A36 S235jr S275jr S355 Ss400 Q235 Q345 Wide Flange Structural Welded Carbon Hea/Heb/Ipe Section Hot Rolled Universal Steel H Beams


ASTM A36 S235jr S275jr S355 Ss400 Q235 Q345 Wide Flange Structural Welded Carbon Hea/Heb/Ipe Section Hot Rolled Universal Steel H Beams

European standard I-beam theoretical weight specification table

Specification

height

width

web thickness

wing thickness

theoretical weight

IPE80

80

46

3.8

5.2

6

IPE100

100

55

4.1

5.7

8.1

IPE120

120

64

4.4

6.3

10.4

IPE140

140

73

4.7

6.9

12.9

IPE160

160

82

5

7.4

15.8

IPE180

180

91

5.3

8

18.8

IPE200

200

100

5.6

8.5

22.4

IPE220

220

110

5.9

9.2

26.2

IPE240

240

120

6.2

9.8

30.7

IPE270

270

135

6.6

10.2

36.1

IPE300

300

150

7.1

10.7

42.2

IPE330

330

160

7.5

11.5

49.1

IPE360

360

170

8

12.7

57.1

IPE400

400

180

8.6

13.5

66.3

IPE450

450

190

9.4

14.6

77.6

IPE500

500

200

10.2

16

90.7

IPE550

550

210

11.1

17.2

106

IPE600

600

220

12

19

122

ASTM A36 S235jr S275jr S355 Ss400 Q235 Q345 Wide Flange Structural Welded Carbon Hea/Heb/Ipe Section Hot Rolled Universal Steel H Beams

DesignationUnit Weight
(kg/m)
Standard Secional
Dimension (mm)
Sectional Area
(cm³)
WHBt1t2rA
HE100A16.796.0100.05.08.012.021.24
B20.4100.0100.06.010.012.026.04
M41.8120.0106.012.020.012.053.24
HE120A19.9114.0120.05.08.012.025.34
B26.7120.0120.06.511.012.034.01
M52.1140.0126.012.521.012.066.41
HE140A24.7133.0140.05.58.512.031.42
B33.7140.0140.07.012.012.042.96
M63.2160.0146.013.022.012.080.56
HE160A30.4152.0160.06.09.015.038.77
B42.6160.0160.08.013.015.054.25
M76.2180.0166.014.023.015.097.05
HE180A35.5171.0180.06.09.515.045.25
B51.2180.0180.08.514.015.065.25
M88.9200.0186.014.524.015.0113.3
HE200A42.3190.0200.06.510.018.053.83
B61.3200.0200.09.015.018.078.08
M103220.0206.015.025.018.0131.3
HE220A50.5210.0220.07.011.018.064.34
B71.5220.0220.09.516.018.091.04
M117240.0226.015.526.018.0149.4
HE240AA47.4224.0240.06.59.021.060.38
A60.3230.0240.07.512.021.076.84
B83.2240.0240.010.017.021.0106.0
M157270.0248.018.032.021.0199.6
HE260AA54.1244.0260.06.59.524.068.97
A68.2250.0260.07.512.524.086.82
B92.9260.0260.010.017.524.0118.4
M172290.0268.018.032.524.0219.6
HE280AA61.3264.0280.07.010.024.078.02
A76.4270.0280.08.013.024.097.26
B103280.0280.010.518.024.0131.4
M189310.0288.018.533.024.0240.2
HE300AA69.8283.0300.07.510.527.088.91
A88.3290.0300.08.514.027.0112.5
B117300.0300.011.019.027.0149.1
M238340.0310.021.039.027.0303.1
HE320AA74.3301.0300.08.011.027.094.58
A97.7310.0300.09.015.527.0124.4
B127320.0300.011.520.527.0161.3
M245359.0309.021.040.027.0312.0
HE340AA78.9320.0300.08.511527.0100.5
A105330.0300.09.516.527.0133.5
B134340.0300.012.021527.0170.9
M248377.0309.021.040.027.0315.8
HE360AA83.7339.0300.09.012.027.0106.6
A112350.0300.010.017.527.0142.8
B142360.0300.012.522.527.0180.6
M250395.0308.021.040.027.0318.8
HE400AA92.4378.0300.09.513.027.0117.7
A125390.0300.011.019.027.0159.0
B155400.0300.013.524.027.0197.8
M256432.0307.021.040.027.0325.8
HE450AA99.8425.0300.010.013.527.0127.1
A140440.0300.011.521.027.0178.0
B171450.0300.014.026.027.0218.0
M263478.0307.021.040.027.0335.4

ASTM A36 S235jr S275jr S355 Ss400 Q235 Q345 Wide Flange Structural Welded Carbon Hea/Heb/Ipe Section Hot Rolled Universal Steel H Beams

 

1.What is a channel steel?

Steel channel is a "C"-shaped hot-rolled carbon steel built with a vertical web and inside radius corners on the top and bottom horizontal flanges. Steel channels consist of a wide web and two flanges, which could be parallel or tapered.

 

2.What is ship channel steel?

MC channels are also known as "ship and car channels" or "miscellaneous channels". Both shapes are highly suitable for a wide range of processing techniques. The strength and versatility channels make them ideal for various applications such as building frames, supports, and other structural and architectural elements.

 

3.What are the four types of steel?

Depending on its composition and processing method, steel can exhibit different mechanical properties such as hardness, ductility, and tensile strength. There are 4 types of steel: Carbon Steel, Alloy Steel, Stainless Steel, and Tool Steel. They form the foundation for nearly all steel classifications.

 

4.How strong is channel steel?

The yield strength of structural steel is typically between 250 MPa and 350 MPa, depending on the grade of steel used. This means that a steel channel can support heavy loads while maintaining its structural integrity. The size of a steel channel plays a vital role in its strength.

 

5.How is channel steel made?

These channels are produced through a hot-rolling process where mild carbon steel strips are heated to high temperatures, making them malleable. They are then passed through rollers to form the characteristic "C" shape, which features a broad vertical web and two flanges.