High Quality ASTM A36 A572 S235jr S355 Ss400 Hea Heb Ipe Section Wide Hot Rolled Galvanized Carbon Universal Steel H Beam Price for Steel Structure

Jan 26, 2026

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Our high-quality carbon universal steel H beams, available in a comprehensive range of material grades (ASTM A36, ASTM A572, S235jr, S355, SS400) and section types (HEA, HEB, IPE), are engineered as premium structural components for steel structure applications. Featuring hot-rolled and galvanized surface treatment processes, these beams integrate exceptional mechanical performance, corrosion resistance, and dimensional precision, making them a reliable choice for diverse industrial and civil engineering projects.

In terms of material properties, the selection of multiple high-grade carbon steels endows the H beams with tailored performance advantages. ASTM A36, a widely used carbon structural steel, boasts a minimum yield strength of 250 MPa and excellent weldability, ductility, and machinability, suitable for general structural applications. ASTM A572, available in grades 50, 60, and 65, offers higher strength (minimum yield strength 345 MPa for grade 50) and is ideal for high-load-bearing structures such as bridges and large industrial plants. S235jr and S355, conforming to European standards, exhibit stable toughness and ductility, with S355 providing enhanced yield strength (minimum 355 MPa) for heavy-duty structural demands. SS400, a Japanese standard carbon steel, features good formability and is widely applied in building frames and mechanical supports. All these materials undergo strict quality control to ensure consistent performance and structural reliability.

Regarding section types, the HEA, HEB, and IPE series cover a full range of universal H beam specifications, each optimized for specific structural requirements. HEA (European Wide Flange Beams) are characterized by narrow flanges and a lightweight design, balancing structural efficiency and material economy, suitable for building frames and light industrial structures. HEB beams, with wider and thicker flanges, offer superior bending resistance and load-bearing capacity, making them ideal for heavy-duty applications such as bridge girders and industrial plant cranes. IPE (European I-Beams) feature an optimized cross-sectional profile with uniform thickness distribution, ensuring excellent torsional stiffness and fatigue resistance, widely used in residential buildings, commercial complexes, and mechanical equipment bases. The hot-rolled manufacturing process for these sections enhances the steel's internal grain structure, improving mechanical strength and toughness while ensuring precise dimensional accuracy and a smooth surface finish.

The galvanized surface treatment is a key advantage of these H beams, significantly enhancing their corrosion resistance. Through the hot-dip galvanizing process, a uniform and dense zinc coating is formed on the beam surface, creating a physical barrier that prevents moisture, oxygen, and other corrosive substances from contacting the base steel. This coating not only extends the service life of the beams in harsh environments (such as coastal areas, industrial zones with chemical fumes, and outdoor infrastructure) but also reduces maintenance costs over the project lifecycle. Additionally, the galvanized finish provides an aesthetically pleasing appearance, suitable for both internal and external structural applications.

These carbon universal steel H beams are specifically designed for steel structure projects, including but not limited to building frames, bridges, warehouses, industrial plants, power stations, and transportation terminals. Their universal compatibility with various connecting components (such as bolts, welds, and brackets) simplifies installation and improves construction efficiency. Each beam undergoes rigorous quality inspection procedures, including material composition analysis, mechanical property testing (tensile, bending, impact tests), dimensional measurement, and coating thickness detection, ensuring compliance with international standards (ASTM, EN, JIS) and customer requirements. With their superior quality, versatile performance, and wide application range, these H beams have become a preferred choice for engineers, contractors, and project developers worldwide.

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

 

H beam

H beam

H beam