H Iron Beam Structural Carbon Steel H Beam Profile (IPE,UPE,HEA,HEB)

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Loading Port:: Tianjin

Payment Terms:: TT or LC

Min Order Qty:: 29 m.t.

Supply Capability:: 24000 m.t./month

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Product Description:

OKorder is offering H Iron Beam Structural Carbon Steel H Beam Profile (IPE,UPE,HEA,HEB) at great prices with worldwide shipping. Our supplier is a world-class manufacturer of steel, with our products utilized the world over. OKorder annually supplies products to European, North American and Asian markets. We provide quotations within 24 hours of receiving an inquiry and guarantee competitive prices.

Product Applications:

H Iron Beam Structural Carbon Steel H Beam Profile (IPE,UPE,HEA,HEB) are ideal for structural applications and are widely used in the construction of buildings and bridges, and the manufacturing, petrochemical, and transportation industries.

Product Advantages:

OKorder's H Iron Beam Structural Carbon Steel H Beam Profile (IPE,UPE,HEA,HEB) are durable, strong, and resist corrosion.

Main Product Features:

· Premium quality

· Prompt delivery & seaworthy packing (30 days after receiving deposit)

· Corrosion resistance

· Can be recycled and reused

· Mill test certification

· Professional Service

· Competitive pricing

Product Specifications:

1. Standard: GB, JIS, ASTM ST

2. Material: Q235, Q345, SS400, S235JR, S275JR, S355JR

3. Length: 5.8-12m or according to our clients' requirements

4. Origin: Tangshan, China

5. Package: load on 20 feet/40 feet container or by bulk according to the quantity and our client's requirement

6. Delivery time: within 20 days after receiving deposit or original L/C

7. Certificate: ISO, SGS, BV, CIQ or other test

8. Technic: Hot rolled

9: Surface: painted, galvanized or punch holes

10. Main market: East-south Asia, Mid-east, South American

11. Usage: Construction structure and Frame use

12. Other Main products: Angle steel, I beam and Channel steel

H Type Steel Size and Theoretical Weight
Size (mm)	Theoretical Weight (kg/m)	Size (mm)	Theoretical Weight (kg/m)	Size (mm)	Theoretical Weight (kg/m)
100505*7	9.3	2501256*9	29	4461998*12	65.1
1001006*8	16.9	2502509*14	71.8	4502009*14	74.9
125606*8	13.1	2942008*12	55.8	48230011*15	110.8
1251256.5*9	23.6	2981495.5*8	32	48830011*18	124.9
1481006*9	31.1	3402509*14	36.7	4961999*14	77.9
150755*7	14	3001506.5*9	93	50020010*16	88.1
1501507*10	20.7	30030010*15	78.1	58230012*17	132.8
175905*8	18	3461746*9	41.2	58830012*20	147
1751757.5*11	40.4	3501757*11	49.4	59619910*15	92.4
1941506*9	29.9	35035012*19	134.9	60020011*17	103.4
198994.5*7	17.8	39030010*16	104.6	70030013*24	181.8
2001005.5*8	20.9	3961997*11	56.1	80030014*26	206.8
2002008*12	49.9	4002008*13	65.4	90030016*28	240.1
2441757*11	43.6	40040013*21	171.7
2481245*8	25.1	44030011*18	120.8
Length=6-12meters

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Q1: Why buy Materials & Equipment from OKorder.com?

A1: All products offered byOKorder.com are carefully selected from China's most reliable manufacturing enterprises. Through its ISO certifications, OKorder.com adheres to the highest standards and a commitment to supply chain safety and customer satisfaction.

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A2: We have established an advanced quality management system which conducts strict quality tests at every step, from raw materials to the final product. At the same time, we provide extensive follow-up service assurances as required.

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A3: Within three days of placing an order, we will begin production. The specific shipping date is dependent upon international and government factors, but is typically 7 to 10 workdays.

H Iron Beam Structural Carbon Steel H Beam Profile (IPE,UPE,HEA,HEB)

Q:Are steel channels suitable for high-rise buildings?: Yes, steel channels are suitable for high-rise buildings. Steel channels, also known as C-channels or U-channels, are commonly used as structural elements in high-rise construction due to their strength and versatility. Steel channels provide excellent load-bearing capacity and structural stability, making them ideal for supporting the weight of multi-story buildings. They can withstand heavy vertical loads, allowing for efficient vertical load distribution throughout the building. Additionally, steel channels are known for their resistance to bending and torsion, ensuring the structural integrity of high-rise buildings, even under extreme conditions such as earthquakes or strong winds. Furthermore, steel channels can be easily fabricated and installed, facilitating the construction process. They are available in various sizes and shapes, allowing for customized designs that suit the specific requirements of high-rise buildings. Steel channels can also be easily connected to other structural elements, such as beams or columns, creating a strong and durable framework for the entire building. Moreover, steel channels have a high strength-to-weight ratio, meaning they can provide significant structural support while keeping the overall weight of the building relatively low. This is particularly advantageous for high-rise buildings, as it reduces the total load on the foundation and lowers construction costs. Furthermore, the use of steel channels allows for flexible and adaptable designs, enabling architects and engineers to create innovative and efficient high-rise structures. In conclusion, steel channels are highly suitable for high-rise buildings due to their strength, structural stability, ease of fabrication and installation, as well as their ability to withstand extreme conditions. Their versatility and efficiency make them a preferred choice for constructing safe, durable, and aesthetically pleasing high-rise buildings.

Q:No. 8 at No. 6 steel, how much is the channel size: In use, it requires better welding, riveting performance and comprehensive mechanical properties. The raw material steel billet for channel steel is carbon or low alloy steel billets with a carbon content of not more than 0.25%. The finished channel steel is delivered by hot forming, normalizing or hot rolling. The specifications are expressed in millimeters of height (H) * leg width (b) * waist thickness (d), such as 100*48*5.3, which means waist height is 100 mm, leg width is 48 mm, waist thickness is 5.3 mm channel, or 10# channel steel. The same height of the channel, if there are several different leg width and waist thickness, also need to add a, B, C on the right side of the model to distinguish, such as 25#a, 25#b, 25#c and so on.

Q:What are the different methods of rust prevention for steel channels?: Steel channels can be protected from rust through various methods. Here are some commonly used ones: 1. Galvanization: Coating the steel channels with zinc is a widely employed technique. Zinc acts as a sacrificial anode, safeguarding the steel from corrosion. Depending on the specific requirements, galvanization can be achieved through hot-dip galvanizing or electro-galvanizing. 2. Application of Paint or Powder Coating: By applying paint or powder coating, a protective barrier is created between the steel channels and the environment. This prevents moisture and oxygen from reaching the steel surface, effectively inhibiting rust formation. It is crucial to carry out proper surface preparation and use high-quality anti-corrosion paints for effective coating. 3. Epoxy Coating: Epoxy coatings offer excellent rust and corrosion protection. These coatings consist of a resin and a hardener, applied as a two-part system. Epoxy coatings are renowned for their durability, chemical resistance, and strong adhesion to steel surfaces. 4. Cathodic Protection: This method involves the use of sacrificial anodes or impressed current to shield steel channels from rust. Sacrificial anodes, usually made of zinc or aluminum, are connected to the channels and corrode instead of the channels. Impressed current systems employ an external power supply to generate a protective electric current that prevents corrosion. 5. Rust Inhibitors: Chemical compounds known as rust inhibitors can be applied to the steel channels to hinder rust formation. These inhibitors create a protective layer on the metal surface, preventing moisture and oxygen from reaching the steel. They can be applied as a spray, dip, or incorporated into coatings or paints. Choosing the appropriate rust prevention method depends on the specific application, environmental conditions, and budget constraints. Regular maintenance and inspection of the steel channels are vital to promptly identify and address any signs of rust or corrosion.

Q:Channel steel is a strip of steel with a cross section.: Channel steel is a strip of steel with a cross section. The specifications of the method, such as 120*53*5, mean waist height of 120 mm, leg width of 53 mm channel, waist thickness of 5 mm channel, or called 12# channel. The same height of the channel, if there are several different leg width and waist thickness, also need to add a, B, C on the right side of the model to distinguish, such as 25a#, 25b#, 25c# and so on.

Q:How can theoretical weight be obtained for 12.5 channel steel?: Using 12.6# (126*53*5.5)Weight 12.37 m/kgTheoretical weight of channel steel W=0.00785* waist thickness [height +e (leg width waist thickness)]E value: the general model is 3.26The steel density is 7.85g/cm3

Q:How do steel channels contribute to building durability?: Steel channels contribute to building durability in several ways. Firstly, steel channels provide structural support to the building. They are used to create the framework and framework support for floors, walls, and ceilings. This ensures that the building can withstand heavy loads and remain stable over time. Steel channels have high strength and rigidity, making them resistant to bending, warping, and twisting, which ultimately enhances the overall durability of the structure. Secondly, steel channels are highly resistant to corrosion. They are commonly made from galvanized or stainless steel, both of which have excellent resistance to rust and corrosion. This is particularly important in buildings that are exposed to moisture, such as coastal areas or places with high humidity. By using steel channels, the risk of structural damage caused by rust or corrosion is significantly reduced, leading to increased durability of the building. Furthermore, steel channels offer fire resistance. Steel is inherently non-combustible, meaning it does not contribute to the spread of fire. In the event of a fire, steel channels can help contain the flames and prevent them from spreading to other parts of the building. This fire-resistant property significantly improves the safety and durability of the structure. Lastly, steel channels are highly durable and require minimal maintenance. Unlike other building materials that may deteriorate over time, steel channels have a long lifespan and retain their strength and integrity for many years. They are not susceptible to rot, decay, or insect damage, which can be common issues with wood or other organic materials. This durability and low maintenance requirement make steel channels a cost-effective choice in the long run. In conclusion, steel channels contribute to building durability by providing structural support, corrosion resistance, fire resistance, and low maintenance requirements. Their strength, stability, and longevity make them an ideal choice for creating durable and long-lasting buildings.

Q:Channel 20A? What's the matter?: Not 20A. It should be 20A. The letters in the back of the numbers are different in meaning. The letters behind the channel must be lowercase (waist thickness is different).20 represents section height 200mm of channel steel, 200*73*7.0 theoretical weight 22.637

Q:You design expert asked: do barrier 5 meters, how long the channel to bear?: This is a mechanical problem of materials, ah, the barrier specific how the structure ah? Feeling should not only consider the material, but also consider the quality of the installation, such as wall connections should be checked dangerous points, where the maximum bending moment!

Q:How do steel channels perform under wind loads?: Steel channels perform well under wind loads due to their high strength and rigidity. They are able to withstand the forces created by wind without significant deformation or failure. The structural design of steel channels, along with their ability to distribute and transfer loads, makes them an ideal choice for resisting wind loads in various applications such as building frames, bridges, and infrastructure projects.

Q:Is the bottom of the channel not real? Why do we open the hole? What's the reason?: In order to make concrete filling into here to go inside, so that there would be no empty embedded sound supervision acceptance will not say do not realize as the filling.

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