Product Description
Common uses of H-beam
(1) Used in factory and high-rise building construction;
(2) Used in bridge and ship construction;
(3) Used in the construction of lifting and transportation machinery and equipment manufacturing bases;
(4) Used in the manufacture of support and foundation piles
Specification
The production process of H-beam mainly includes hot rolling process and welding process.
1. Hot rolling process: The steel billet is heated to a high temperature, and then undergoes a series of rolling processes to gradually form the shape of the H-beam. This process has high production efficiency, stable product quality and excellent mechanical properties.
2. Welding process: The shape of the H-beam is formed by welding and splicing. The welding quality needs to be strictly controlled during the welding process to ensure the strength and toughness of the weld. The welding process can produce some special specifications and shapes of H-beams to meet specific needs.
It is widely used in various building structures, bridges, vehicles, brackets, machinery, etc., such as steel support brackets for industrial structures, steel piles and underground engineering support structures, industrial equipment structures such as petrochemicals and electric power, ships, frame structures for machinery manufacturing, trains, cars, tractor beam brackets, port conveyors, high-speed rolling door brackets, etc.




Specifications
(Custom configurations available upon request.)
item | value | ||
Product name | Carbon Steel I/U/H profiles steel beams Wide Flange Section For Construction | ||
Technique | Hot rolled / Welded | ||
Place of Origin | China | ||
Material | Q235B, SS400, A-36, AS300B, S355J0, S450J0-T, S275JR | ||
Standard | ASTM / AS / BS / GB / JIS | ||
Thickness | 5-36mm | ||
Length | 12m or Customer requirment | ||
Surface treatment | Galvanized / Black | ||
Flange Width | 100-300mm | ||
Flange Thickness | 8mm-36mm | ||
Web Width | 96mm-1000mm | ||
Web Thickness | 5-18.5 | ||
Processing Service | Bending, Welding, Punching, Cutting |
Drawings & Dimensions
Our engineering team can provide tailored designs to meet specific project requirements.




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 stronger, C channel or I-beam?
Lighter loads and shorter spans are more suited for C channels. In applications that don't need for a lot of load-bearing capability, they offer adaptability. Projects needing heavy loads, lengthy spans, and substantial structural support are where I beams stand out.
3.What are the four types of steel?
Steel is graded and classified into four groups:
Carbon steels.
Alloy steels.
Stainless steels.
Tool steels.
4.What are the disadvantages of channel steel?
Disadvantages of C Channels
Their load bearing capacity may be restricted compared to other structural profiles, making them less suitable for heavy duty applications. C channels are also vulnerable to twisting due to their open design, requiring careful consideration in projects with specific load requirements.
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.



















