Product Description
Product Name | Hot Rolled Carbon Steel H-beam | |||||
Grade | Q235B SM490 SS400 Q345B G300 G350 S275JR S355JR | |||||
Standard | GB ASTM, JIS, SUS, DIN, EN etc | |||||
Technique | Hot rolled / welded | |||||
Application | Bridges, infrastructure and building structures, machinery and equipment manufacturing | |||||
Length: | 6-12m or according to customer requirement | |||||
Package | Export standard packing or according to customers' requirement | |||||
Shape | H | |||||
Delivery time | About 7- 15 days | |||||
Trade term | FOB CFR CIF EXW | |||||
Payment | 30%T/T Advance + 70% Balance against B/L copy or 100% LC at sight | |||||
MOQ | 5 TONS | |||||
Place of Origin | China | |||||
Size (MM) h*b*tw*t | Theoretical weight (KG/M) | Size (MM) h*b*tw*t | Theoretical weight |
100*50*5*7 | 9.54 | 300*150*6.5*9 | 37.3 |
100*100*6*8 | 17.2 | 294*302*12*12 | 85.0 |
125*60*6*8 | 13.3 | 300*300*10*15 | 94.5 |
125*125*6.5*9 | 23.8 | 300*305*15*15 | 106.0 |
148*100*6*9 | 21.4 | 338*351*13*13 | 106.0 |
150*75*5*7 | 14.3 | 340*250*9*14 | 79.7 |
150*150*7*10 | 31.9 | 344*354*16*16 | 131.0 |
175*90*5*8 | 18.2 | 346*174*6*9 | 41.8 |
175*175*7.5*11 | 40.3 | 350*175*7*11 | 50.0 |
194*150*6*9 | 31.2 | 344*348*10*16 | 115.0 |
198*99*4.5*7 | 18.5 | 350*350*12*19 | 137.0 |
200*100*5.5*8 | 21.7 | 388*402*15*15 | 141.0 |
200*200*8*12 | 50.5 | 390*300*10*16 | 107.0 |
200*204*12*12 | 72.28 | 394*398*11*18 | 147.0 |
244*175*7*11 | 44.1 | 400*150*8*13 | 55.8 |
244*252*11*11 | 64.4 | 396*199*7*11 | 56.7 |
248*124*5*8 | 25.8 | 400*200*8*13 | 66.0 |
250*125*6*9 | 29.7 | 400*400*13*21 | 172.0 |
250*250*9*14 | 72.4 | 400*408*21*21 | 197.0 |
250*255*14*14 | 82.2 | 414*405*18*28 | 233.0 |
294*200*8*12 | 57.3 |
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Hot Products



1.What type of steel is H-beam?
Steel H-beam is primarily constructed of carbon or low-alloy steel and is welded or hot rolled. The production method entails heating a steel billet or ingot before shaping it into the necessary H-shaped cross-section. The resulting beam is made up of two horizontal flanges joined by a vertical web.
2.Which is stronger, H or I beam?
As a result, H beams are generally considered to be more durable than I beams due to their greater weight and stiffness. However, there are several variables that can influence a beam's strength and performance, including its manufacturing process, composition, and design.
3.What is H-beam used for?
Building Frameworks: H-beams are the backbone of high-rise buildings, commercial spaces, and industrial plants. They ensure seismic resistance and superior load-bearing capacity, keeping structures safe and secure.
4.What is the difference between H and W beam?
In general, W-beams are ideal for projects that require strong horizontal support, such as bridges and buildings with large open floor plans. H-beams, on the other hand, are ideal for projects that require strong vertical support, such as high-rise buildings and other structures with multiple levels.
5.How strong is an H-beam?
An H-beam's durability comes from its strength-to-weight ratio in the cross-section. This optimized design means that these beam types have more strength against heavier loads. An H-beam can also be easier to weld, and because it has a large surface area in its cross-section, it earns a high strength rating.



















