Shape: Its cross-section shape is "H" shaped, consisting of flanges and webs, with flanges on both sides and webs in the middle.
Performance characteristics
High strength and light weight: H-beam has a high load-bearing capacity. At the same time, due to its reasonable cross-sectional design, it reduces the use of unnecessary materials, making the weight of H-beam lighter under the same load-bearing capacity, which is conducive to saving construction costs and improving construction efficiency.
Excellent cross-sectional performance: H-beam has a high cross-sectional modulus parameter and a large moment of inertia, so it has good bending and torsion resistance. When subjected to the same load, its deformation is smaller and the structural stability is higher.
Good processing performance: H-beam has high dimensional accuracy, smooth surface, and is easy to perform processing operations such as cutting, drilling, and welding, meeting the manufacturing needs of various complex structures.
|
Product Name |
H beam |
|
|
1.Web Width (H): 100-900mm |
|
Length |
1m - 12m , or according to your requests. |
|
Standard |
GB ASTM, JIS, SUS, DIN, EN etc |
|
Material |
Q235B Q345B Q420C Q460C SS400 SS540 S235 S275 S355 A36 A572 G50 G60 |
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Technique |
Hot rolled |
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Application |
Construction structure |
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Price Item |
FOB,CIF,DDU,FCA,EXW ,.etc |
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Packing |
Export standard packing or according to customers' requirement |
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Supply Ability |
Within10-15 workdays,25-30days when the quantity beyond 1000tons |
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H Beam Specification |
|||||
|
size |
w/m |
size |
w/m |
size |
w/m |
|
100*50*5*7 |
9.54 |
250*255*14*14 |
82.2 |
400*400*13*21 |
172 |
|
100*100*6*8 |
17.2 |
294*200*8*12 |
57.3 |
400*408*21*21 |
197 |
|
125*60*6*8 |
13.3 |
300*150*6.5*9 |
37.3 |
414*405*18*28 |
233 |
|
125*125*6.5*9 |
23.8 |
294*302*12*12 |
85 |
440*300*11*18 |
124 |
|
148*100*6*9 |
21.4 |
300*300*10*15 |
94.5 |
446*199*7*11 |
66.7 |
|
150*75*5*7 |
14.3 |
300*305*15*15 |
106 |
450*200*9*14 |
76.5 |
|
150*150*7*10 |
31.9 |
338*351*13*13 |
106 |
482*300*11*15 |
115 |
|
175*90*5*8 |
18.2 |
340*250*9*14 |
79.7 |
488*300*11*18 |
129 |
|
175*175*7.5*11 |
40.3 |
344*354*16*16 |
131 |
496*199*9*14 |
79.5 |
|
194*150*6*9 |
31.2 |
346*174*6*9 |
41.8 |
500*200*10*16 |
89.6 |
|
198*99*4.5*7 |
18.5 |
350*175*7*11 |
50 |
582*300*12*17 |
137 |
|
200*100*5.5*8 |
21.7 |
344*348*10*16 |
115 |
588*300*12*20 |
151 |
|
200*200*8*12 |
50.5 |
350*350*12*19 |
137 |
596*199*10*15 |
95.1 |
|
200*204*12*12 |
72.28 |
388*402*15*15 |
141 |
600*200*11*17 |
106 |
|
244*175*7*11 |
44.1 |
390*300*10*16 |
107 |
700*300*13*24 |
185 |
|
244*252*11*11 |
64.4 |
394*398*11*18 |
147 |
792*300*14*22 |
191 |
|
248*124*5*8 |
25.8 |
400*150*8*13 |
55.8 |
800*300*14*26 |
210 |
|
250*125*6*9 |
29.7 |
396*199*7*11 |
56.7 |
900*300*16*28 |
243 |
1.What is I-beam steel?
I beam is a shape of structural steel used in buildings and it is also known as H, W, wide, universal beam, or rolled joist. They are designed to play a key role as a support member in structures
2.Is an I-beam the strongest?
Depending on your requirements, both timber beams and steel beams might be beneficial. However, the I beam is always the strongest. Other qualities of the I beam are high accuracy, low residual stress, and less expensive welding materials, which save approximately 30% of the cost of steel structure construction.
3.Why is it called an I-beam?
Their name comes from their distinctive cross-sectional shape, which resembles the letter "I" or "H." Each beam features horizontal elements called flanges and a vertical element known as a web, enabling the I-beam to handle various types of loads effectively.
4.Which is stronger, H or I-beam?
To short, the main difference between an H-beam and an I-beam is that the web of an H-beam is much thicker than that of an I-beam. A thicker web means a stronger beam, which allows for more load-bearing capacity. This means that for the same amount of structural support, you can use fewer H beams than I beams.
5.Which is stronger, UB or UC?
In addition, the dimensions of a UC are determined by the size of the web and flange. However, the dimensions of UB are determined by the depth of the web height and width. Their overall strength is less than UC due to their reduced section modulus.