Hot Rolled Steel I Beams for steel structure from China

Hot Rolled Steel I Beams for steel structure from China System 1

Hot Rolled Steel I Beams for steel structure from China

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Loading Port:: Tianjin

Payment Terms:: TT OR LC

Min Order Qty:: 10000 m.t

Supply Capability:: 500000 m.t/month

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Product Description:

OKorder is offering Hot Rolled Steel I Beams for steel structure from China 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:

Hot Rolled Steel I Beams for steel structure from China are widely used in various construction structures, bridges, autos, brackets, mechanisms and so on.

Product Advantages:

OKorder's Hot Rolled Steel I Beams for steel structure from China 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. Product name:Hot Rolled Steel I Beams for steel structure from China

2. Standard: EN10025, GB Standard, ASTM, JIS etc.

3. Grade: Q235B, A36, S235JR, Q345, SS400 or other equivalent.

4. Length: 5.8M, 6M, 9M, 10M, or as your requirements

IPE/IPEAA

Section	Standard Sectional Dimensions(mm)
	h	b	s	t	Mass Kg/m
IPE80	80	46	3.80	5.20	6.00
IPE100	100	55	4.10	5.70	8.10
IPE120	120	64	4.80	6.30	10.40
IPE140	140	73	4.70	6.90	12.90
IPE160	160	82	5.00	7.40	15.80
IPE180	180	91	5.30	8.00	18.80
IPE200	200	100	5.60	8.50	22.40
IPE220	220	110	5.90	9.20	26.20
IPE240	240	120	6.20	9.80	30.70
IPE270	270	135	6.60	10.20	36.10
IPEAA80	80	46	3.20	4.20	4.95
IPEAA100	100	55	3.60	4.50	6.72
IPEAA120	120	64	3.80	4.80	8.36
IPEAA140	140	73	3.80	5.20	10.05
IPEAA160	160	82	4.00	5.60	12.31
IPEAA180	180	91	4.30	6.50	15.40

5.Color marking: There will be color marking on both end of the bundle for the cargo delivered by bulk vessel. That makes it easily to distinguish at the destination port.

Tag mark: there will be tag mark tied up on the bundles. The information usually including supplier logo and name, product name, made in China, shipping marks and other information request by the customer.

If loading by container the marking is not needed, but we will prepare it as customer request.

6. Shipment: In containers or in bulk cargo

FAQ:

Q1: Why buy Hot Rolled Steel I Beams for steel structure from China from OKorder.com?

A1: All products 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.

Q2: The products are invoicing on theoretical weight or on actual weight?

A2: We can do it in both manners, it’s according to buyer's requirement.

Q3: Can you offer the third part inspection certificates ?

A3: Yes, we can apply third part inspection before shipping, such as SGS, BV, etc .

Images:

Hot Rolled Steel I Beams for steel structure from China

Q: What are the considerations for steel I-beam design in extreme temperatures?: When designing steel I-beams for extreme temperatures, there are several crucial factors that need to be taken into consideration. To begin with, it is of utmost importance to comprehend the impact of temperature on the mechanical properties of the steel. As the temperature increases, the strength and stiffness of the steel decrease, and this reduction can be quite significant under extremely high or low temperatures. Consequently, the design must account for these variations in material behavior to ensure the structural integrity and safety of the I-beam. Another factor to consider is thermal expansion and contraction. When heated, steel expands, and when cooled, it contracts. This thermal movement can introduce stresses and potential deformations in the I-beam. To address these effects, appropriate expansion joints or allowances should be integrated into the design, allowing for thermal movement without compromising the overall stability of the structure. In extremely cold temperatures, steel becomes more brittle, thereby increasing the risk of fracture. Therefore, the design should incorporate measures to prevent brittle fracture. This can be achieved by utilizing steel grades with good low-temperature toughness or by including additional reinforcement to enhance the beam's resistance to cracking. Furthermore, extreme temperatures can also impact the corrosion resistance of steel. In high-temperature environments, steel may be exposed to aggressive chemical reactions that expedite corrosion. Therefore, it is crucial to apply suitable protective coatings or materials to prevent corrosion and prolong the service life of the I-beam. Moreover, it is vital to consider the effects of temperature on the surrounding environment. For instance, if the steel I-beam is exposed to extreme heat, such as during a fire, it may require a design that can withstand elevated temperatures for a specific duration to ensure structural stability and prevent collapse. All in all, the design of steel I-beams for extreme temperatures necessitates a comprehensive understanding of material properties, thermal expansion, the potential for brittle fracture, corrosion resistance, and the surrounding environment. By carefully considering these factors, engineers can develop robust and safe designs capable of withstanding extreme temperature conditions.

Q: Can steel I-beams be used as columns or posts in construction?: Indeed, steel I-beams have the potential to serve as columns or posts within construction projects. Their exceptional strength and capacity to bear heavy loads have made them extensively utilized in the construction industry. Employed as columns or posts, they effectively uphold substantial weights and ensure structural stability. Renowned for their resilience and resistance against bending or warping, steel I-beams prove themselves fitting for diverse construction endeavors. Moreover, they offer the convenience of customization to accommodate specific design specifications and can be manufactured in various dimensions and lengths.

Q: How do steel I-beams contribute to the overall stability of a structure?: Enhancing the overall stability of a structure is a crucial role played by steel I-beams. These beams are specifically engineered to carry and distribute the building's load across its length, thereby preventing stress concentration in specific areas. The distinctive shape of an I-beam, with its flanges and web, grants it exceptional strength and resistance against bending or twisting forces. A significant contribution made by steel I-beams towards stability is providing structural support and minimizing the risk of building collapse. The horizontal flanges of the I-beam aid in evenly distributing the structure's weight, enabling it to bear substantial loads, including the building's own weight and additional live loads like furniture, equipment, or people. This distribution of load ensures stability and reduces the chance of catastrophic failure. Furthermore, steel I-beams effectively resist both vertical and horizontal forces, such as wind or seismic loads. The robust and rigid nature of steel allows these beams to transmit these forces through the structure, preventing excessive deflection or deformation. By withstanding these external forces, I-beams preserve the integrity of the structure, safeguarding it against potential damage or collapse. An additional advantage of steel I-beams lies in their ability to span long distances without requiring intermediate supports. These beams can be fabricated to span significant distances, eliminating the need for additional columns or walls. This grants more design flexibility and utilization of space, enabling open floor plans and maximizing the usable area of the structure. Moreover, steel I-beams are highly durable and possess a high strength-to-weight ratio. This means they can withstand heavy loads while being relatively lightweight compared to other construction materials. This advantage simplifies the construction process, reduces the overall weight of the structure, and leads to cost savings and increased design adaptability. In conclusion, steel I-beams contribute to the overall stability of a structure through structural support, load distribution, resistance against external forces, long-span capabilities, and durability. Their unique design and material properties establish them as indispensable components for ensuring the safety and stability of buildings in various applications, ranging from residential homes to large-scale commercial or industrial structures.

Q: How do you mark the types of steel such as channel, I-beam and so on in the document?: In the document mark "channel", "I-beam" and other steel symbols, the input method of small keyboard, right-click the Greek character mother.

Q: Are there any health or safety concerns associated with steel I-beams?: Yes, there are potential health and safety concerns associated with steel I-beams. These concerns primarily revolve around the handling and installation process. Steel I-beams are heavy and require proper lifting equipment and techniques to prevent accidents and injuries. Additionally, workers need to be cautious of sharp edges and corners that can cause cuts and bruises. It is crucial to follow safety protocols and wear personal protective equipment to mitigate these risks.

Q: How do steel I-beams perform in high humidity areas?: Steel I-beams perform well in high humidity areas as they are made from a combination of iron and carbon, which makes them highly resistant to corrosion and moisture damage. The steel is typically coated with protective coatings or paint to further enhance its resistance to humidity. Additionally, I-beams are designed to distribute weight evenly, providing excellent structural support even in moist environments. Therefore, steel I-beams are a reliable choice for construction projects in high humidity areas, ensuring durability and longevity in such conditions.

Q: What are the common maintenance practices for steel I-beams?: Common maintenance practices for steel I-beams include regular inspection for signs of corrosion or damage, cleaning to remove dirt and debris, applying protective coatings or paints to prevent rusting, and addressing any structural issues promptly through repairs or reinforcement. Additionally, ensuring proper drainage and preventing water accumulation can help prevent corrosion and extend the lifespan of steel I-beams.

Q: How do steel I-beams perform in terms of deflection or bending?: Steel I-beams are renowned for their exceptional deflection and bending capabilities. Their structural design grants them a moment of inertia, which renders them highly resistant to bending or deflection when subjected to a load. The I-beam's shape, characterized by elongated top and bottom flanges connected by a narrower web, facilitates the uniform distribution of the load along the beam's length, thereby minimizing deflection. The robustness of steel further contributes to the I-beam's superior performance. Steel stands as one of the most formidable construction materials, boasting remarkable tensile strength and stiffness. Consequently, steel I-beams can endure substantial loads without succumbing to significant deflection or bending. Additionally, steel I-beams can be reinforced by enlarging their size or incorporating additional stiffeners or bracing. This augmented reinforcement amplifies their resistance to deflection or bending, rendering them suitable for an extensive array of applications, encompassing skyscrapers, bridges, and industrial edifices. In conclusion, the deflection or bending performance of steel I-beams distinguishes itself through the amalgamation of their structural design and the strength of steel. Their ability to uniformly distribute loads and withstand bending or deflection positions them as a reliable choice for diverse construction endeavors.

Q: How do steel I-beams perform in high-moisture areas?: Steel I-beams generally perform well in high-moisture areas, provided they are properly protected against corrosion. Steel is a durable and strong material that can withstand high moisture conditions, such as those found in coastal regions or areas prone to high humidity or moisture levels. However, if exposed to moisture without suitable protection, steel I-beams can be susceptible to rust and corrosion, which can weaken their structural integrity over time. To ensure optimal performance in high-moisture areas, it is crucial to implement proper corrosion prevention measures. This typically involves applying protective coatings or paints to the surface of the steel I-beams. These coatings act as a barrier against moisture, preventing direct contact between the steel and the surrounding environment. Additionally, regular inspections and maintenance should be conducted to identify and address any signs of corrosion or damage promptly. It is worth noting that in extremely corrosive environments, such as those with high salt content or chemical exposure, additional measures may be required. In these cases, stainless steel or galvanized steel I-beams are often recommended, as they offer enhanced resistance against corrosion. Stainless steel contains chromium, which forms a passive oxide layer that provides excellent protection against moisture and corrosion. Galvanized steel, on the other hand, is coated with a layer of zinc that acts as a sacrificial barrier, preventing the steel from coming into contact with moisture. In summary, steel I-beams can perform well in high-moisture areas if properly protected against corrosion. By implementing appropriate preventive measures, such as coatings, regular maintenance, and, if necessary, using stainless steel or galvanized steel, the structural integrity and longevity of the I-beams can be preserved even in challenging moisture-rich environments.

Q: Are there any health and safety considerations when working with steel I-beams?: Yes, there are several health and safety considerations when working with steel I-beams. Some of the main considerations include: 1. Personal Protective Equipment (PPE): Workers should always wear appropriate PPE such as safety glasses, steel-toed boots, gloves, and hard hats to protect against potential hazards from falling objects, cuts, and impacts. 2. Manual Handling: Steel I-beams can be heavy and require proper lifting techniques to prevent strains, sprains, or other musculoskeletal injuries. Workers should receive proper training on how to lift and move these heavy objects safely, and mechanical lifting aids should be used whenever possible. 3. Structural Stability: Before working with steel I-beams, it is essential to ensure that the structure they are a part of is stable and capable of supporting the weight of the beams and the workers. Structural engineers should assess the stability and integrity of the structure to prevent collapse or structural failures. 4. Falls from Heights: Working with steel I-beams often involves working at heights, such as during installation or maintenance. Fall protection measures such as guardrails, safety nets, or personal fall arrest systems should be in place to prevent falls and protect workers from serious injuries. 5. Welding and Cutting Hazards: Steel I-beams may require welding or cutting during fabrication or modification. These processes can produce hazardous fumes, sparks, and intense heat. Adequate ventilation, fire prevention measures, and proper training in welding and cutting techniques are necessary to minimize the risks associated with these operations. 6. Hazardous Materials: Some steel I-beams may be coated with paints, coatings, or preservatives that contain hazardous substances like lead or asbestos. Workers should be aware of the potential hazards and follow appropriate safety procedures, such as using respiratory protection and proper handling techniques, to prevent exposure. Overall, working with steel I-beams requires careful adherence to safety protocols to protect workers from various hazards associated with their weight, structural integrity, height, welding processes, and potential exposure to hazardous materials.

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