• Hot Rolled Mild EN Standard I Beams for Structure Construction System 1
  • Hot Rolled Mild EN Standard I Beams for Structure Construction System 2
  • Hot Rolled Mild EN Standard I Beams for Structure Construction System 3
Hot Rolled Mild EN Standard I Beams for Structure Construction

Hot Rolled Mild EN Standard I Beams for Structure Construction

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Loading Port:
Tianjin
Payment Terms:
TT or LC
Min Order Qty:
25 m.t.
Supply Capability:
200000 m.t./month

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Product Description:

OKorder is offering Hot Rolled Mild EN Standard I Beams for Structure Construction 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 Mild EN Standard I Beams for Structure Construction are ideal for structural applications and are widely used in the construction of buildings and bridges, and the manufacturing, petrochemical, and transportation industries.

1. Supporting members, most commonly in the house raising industry to strengthen timber bears under houses. Transmission line towers, etc

2. Prefabricated structure

3. Medium scale bridges

4. It is widely used in various building structures and engineering structures such as roof beams, bridges, transmission towers, hoisting machinery and transport machinery, ships, industrial furnaces, reaction tower, container frame and warehouse etc.

 

Product Advantages:

OKorder's Hot Rolled Mild EN Standard I Beams for Structure Construction are durable, strong, and resist corrosion. And they are made of high quality of steel billets of China.

 

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 Mild EN Standard I Beams for Structure Construction

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, 12M or as your requirements

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

IPEAA200

200

100

4.50

6.70

17.95

FAQ: 

Q1: Why buy Hot Rolled Mild EN Standard I Beams for Structure Construction from OKorder.com?

A1: All Hot Rolled Mild EN Standard I Beams for Structure Construction 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.

Q2: How do we guarantee the quality of our Hot Rolled Mild EN Standard I Beams for Structure Construction?

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.

Q3: How soon can we receive the Hot Rolled Mild EN Standard I Beams for Structure Construction after purchase?

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.

Q5: Can Hot Rolled Mild EN Standard I Beams for Structure Construction rust?

A5: Stainless does not "rust" as you think of regular steel rusting with a red oxide on the surface that flakes off. If you see red rust it is probably due to some iron particles that have contaminated the surface of the stainless steel and it is these iron particles that are rusting. Look at the source of the rusting and see if you can remove it from the surface.

 

Images:

Hot Rolled Mild EN Standard I Beams for Structure Construction

Hot Rolled Mild EN Standard I Beams for Structure Construction

 

Q:What is the standard length of steel channels?
The specific industry and application determine the possible variations in the standard length of steel channels. Typically, steel channels are found in standard lengths of 20 feet or 6 meters. These lengths are frequently chosen for their convenience in transportation, handling, and alignment with prevalent building and construction methods. It is worth mentioning that custom lengths can be acquired to meet project-specific needs. Nevertheless, the widely utilized and easily accessible standard length in the market remains 20 feet or 6 meters.
Q:How do steel channels contribute to the overall cost savings of a structure?
Steel channels contribute to the overall cost savings of a structure in several ways. Firstly, steel channels are lightweight yet strong, allowing for the use of smaller and lighter foundations, resulting in reduced material and labor costs. Additionally, steel channels can be prefabricated off-site, which saves time and money during the construction process. Moreover, steel channels have a long lifespan, requiring minimal maintenance and repair, leading to long-term cost savings. Finally, steel channels are recyclable, reducing the environmental impact of a structure and potentially providing financial benefits through the resale value of the material.
Q:What are the different spans achievable with steel channels?
The spans achievable with steel channels can vary depending on various factors such as the size and shape of the channel, the load it needs to support, and the design considerations. Steel channels are commonly used in construction and engineering projects for structural support and reinforcement. For smaller steel channels, typically known as C-channels, the spans achievable can range from a few feet to several tens of feet. These channels are often used for light-duty applications such as framing, bracing, and supporting smaller loads. On the other hand, larger steel channels, such as I-beams or H-beams, can achieve much larger spans. These channels are designed to support heavier loads and provide structural integrity over longer distances. The spans achievable with these channels can range from tens of feet to several hundred feet or even more, depending on the specific design and engineering requirements. It is important to note that achieving longer spans with steel channels often requires additional engineering considerations such as proper calculations for load distribution, the use of appropriate connections and fasteners, and adherence to local building codes and regulations. Consulting with a structural engineer or a professional in the field is highly recommended to ensure the safe and effective use of steel channels for achieving desired spans in any construction or engineering project.
Q:What are the different types of steel channel profiles?
A variety of steel channel profiles exist, each specifically designed for different applications and structural needs. Some commonly used types include: 1. C Channel: A popular steel channel profile with a cross-section in the shape of the letter "C". It is frequently utilized in construction and engineering projects as a structural support or frame for various applications. 2. U Channel: Also referred to as a U-shaped channel, this type possesses a similar cross-section to the letter "U". It finds common use in the construction, manufacturing, and automotive industries for applications such as framing, bracing, and support. 3. Hat Channel: Hat channels are distinguishable by their hat-like shape, featuring a flat bottom and two vertical sides. They are frequently employed in construction for applications like ceiling and wall framing, as well as in the automotive industry to reinforce structural components. 4. Box Channel: Box channels, as the name suggests, possess a rectangular or square cross-section. They are commonly found in construction, manufacturing, and engineering projects requiring strength and rigidity. 5. Z Channel: Z channels boast a Z-shaped cross-section, with two flanges on opposite sides and a center web connecting them. They find widespread use in construction, particularly in roofing and cladding systems, for applications such as framing, support, and bracing. 6. Lipped Channel: Lipped channels, also known as lip channels or lip sections, have an additional flange or lip along one side of the channel. This added feature provides extra strength and rigidity, making it suitable for applications like shelving, racking, and structural support. These examples represent only a fraction of the available steel channel profiles. The choice of profile depends on project-specific requirements, including load-bearing capacity, structural stability, and overall design considerations.
Q:What material does hot-dip galvanized channel belong to?
It is basically determined that carbon steel is the raw material of channel steel and carbon steel or low alloy steel billet with carbon content of not more than 0.25%.
Q:How do steel channels contribute to the overall longevity of a structure?
There are several ways in which steel channels contribute to the overall longevity of a structure. Firstly, their strength and durability are well-known. Steel channels can withstand heavy loads and resist deformation, thus ensuring the building's structural integrity over time. This strength is particularly crucial in areas prone to earthquakes, strong winds, or heavy snow loads. Moreover, steel channels offer a high level of corrosion resistance. Steel naturally resists rust and deterioration, especially when adequately coated with protective finishes. This resistance to corrosion guarantees that the structure remains stable and secure for an extended period, even in harsh environments or coastal areas with saltwater exposure concerns. Furthermore, steel channels are highly versatile and easy to customize and fabricate according to specific design requirements. This adaptability empowers architects and engineers to create intricate and innovative structures that are visually appealing and structurally robust. Steel channels can be seamlessly integrated into various building systems, such as framing, roofing, and cladding, facilitating an efficient and streamlined construction process. Additionally, steel channels have an extended lifespan compared to other building materials. Unlike wood or concrete, steel does not rot, warp, or crack over time. This longevity reduces the need for frequent repairs and replacements, ultimately saving time and money in the long term. Moreover, steel is a sustainable and recyclable material, contributing to the overall environmental friendliness of the structure. In conclusion, steel channels significantly contribute to the overall longevity of a structure by providing strength, durability, corrosion resistance, versatility, and a long lifespan. Their ability to withstand various loads and environmental conditions ensures the building's structural integrity, while their customization options and recyclability make them an excellent choice for sustainable construction practices.
Q:Can steel channels be used for mezzanine floors?
Yes, steel channels can be used for mezzanine floors. Steel channels are commonly used as a structural component in mezzanine floor construction due to their strength and durability. They provide the necessary support and stability required for creating additional levels or platforms within a building.
Q:Where does channel steel use more? Where does angle iron use more?
Channel steel is used more in construction of factories and mines. Angle iron is used more in machinery, such as construction machinery, paper making machinery, sewing machinery and so on
Q:Can steel channels be used in the construction of automotive frames?
Indeed, the utilization of steel channels in the fabrication of automotive frames is feasible. The construction industry frequently employs steel channels owing to their robustness, longevity, and adaptability. These channels offer exceptional structural reinforcement and can endure substantial burdens, rendering them apt for automotive frames. Additionally, steel channels possess remarkable resistance against bending and twisting forces, thus ensuring the stability and security of the vehicle. Moreover, the fabrication and welding of steel channels can be effortlessly accomplished, enabling efficient and economical production of automotive frames.
Q:What are the different methods for designing steel channels for seismic loads?
There are several methods for designing steel channels for seismic loads. One common approach is to use the direct analysis method, which involves performing a detailed finite element analysis to determine the forces and deformations in the channel under seismic loading. Another method is the equivalent lateral force method, which simplifies the seismic forces into equivalent lateral forces that act on the structure. The response spectrum method is another technique, where the seismic forces are determined based on the response spectrum of the ground motion. Additionally, the capacity design method can be employed, which involves designing the channel to ensure that certain critical elements of the structure fail in a controlled manner before others in order to improve the overall seismic performance. Ultimately, the specific method chosen will depend on various factors such as the complexity of the structure, the desired level of accuracy, and the available resources and expertise.

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