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IPE

IPE

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Product Description:

Specifications of IPE Beam

1. Invoicing on theoretical weight or actual weight as customer request

2. Standard: EN10025, GB Standard, ASTM

3. Grade: Q235B, Q345B, SS400, ASTM A36, S235JR, S275JR

4. Length: 5.8M, 6M, 9M, 12M as following table

5. Sizes: 80mm-270mm

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

Appications of IPE Beam

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.

Package & Delivery of IPE Beam

1. Packing: it is nude packed in bundles by steel wire rod

2. Bundle weight: not more than 3.5MT for bulk vessel; less than 3 MT for container load

3. Marks: 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.

4. 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.

5. Transportation: the goods are delivered by truck from mill to loading port, the maximum quantity can be loaded is around 40MTs by each truck. If the order quantity cannot reach the full truck loaded, the transportation cost per ton will be little higher than full load.

6. Delivery of IPE Beam: 30 days after getting L/C Original at sight or T/T in advance

Production flow of IPE Beam

Material prepare (billet) —heat up—rough rolling—precision rolling—cooling—packing—storage and transportation

Q:Can steel I-beams be used in high-rise construction?
Yes, steel I-beams are commonly used in high-rise construction. They provide superior strength and load-bearing capacity, making them ideal for supporting the heavy weight and structural demands of tall buildings.
Q:How do engineers determine the appropriate size and type of steel I-beam for a project?
Through a comprehensive analysis of various factors, engineers ascertain the suitable dimensions and kind of steel I-beam for a project. Initially, they evaluate the project's structural prerequisites, encompassing load-bearing capacity, span length, and expected loads such as permanent (dead) and temporary (live) loads. To establish the necessary size of the I-beam, engineers perform structural computations and apply engineering principles like bending moment, shear force, and deflection analysis. These calculations enable engineers to comprehend the forces and stresses acting upon the beam, facilitating the selection of an appropriate size that can adequately support the anticipated loads without failure. Moreover, engineers consider the type of steel I-beam based on the specific project requirements. Distinct steel grades offer varying degrees of strength, ductility, and resistance to corrosion. Engineers evaluate the environmental conditions, moisture exposure, and potential chemical influences to opt for a steel type that can endure these factors and maintain its structural integrity over time. In addition to structural considerations, engineers also factor in cost-effectiveness and the availability of the steel I-beams. Their aim is to strike a balance between meeting project requirements and minimizing unnecessary expenses. This entails considering the standard sizes and shapes accessible in the market, ensuring that the selected I-beam can be readily sourced and seamlessly integrated into the project without significant delays or additional costs. Overall, the determination of the appropriate size and type of steel I-beam for a project is a meticulous process that demands careful deliberation of the structural prerequisites, load calculations, material properties, and economic factors. Engineers leverage their expertise, knowledge of engineering principles, and relevant design codes and standards to guarantee the secure and efficient utilization of steel I-beams in construction projects.
Q:Can steel I-beams be used for outdoor structures?
Yes, steel I-beams can be used for outdoor structures. Steel is a popular choice for outdoor structures due to its durability, strength, and resistance to environmental factors such as moisture, temperature variations, and pests. Steel I-beams provide excellent load-bearing capabilities, making them suitable for a wide range of outdoor applications such as bridges, pergolas, gazebos, carports, and even large-scale industrial structures like warehouses and factories. Additionally, steel can be easily fabricated and customized to meet specific design requirements, allowing for flexibility and versatility in outdoor construction projects. However, it is important to consider factors such as proper coating or galvanization to protect the steel from corrosion in outdoor environments, as well as ensuring proper installation and maintenance to prolong the lifespan of the structure.
Q:How do steel I-beams contribute to the overall architectural aesthetics of a structure?
Steel I-beams contribute to the overall architectural aesthetics of a structure by providing a sleek and modern appearance. Their clean lines and minimalistic design create a sense of strength and stability, enhancing the visual appeal of the building. Additionally, the versatility of steel I-beams allows architects to incorporate large, open spaces and expansive windows, creating a sense of lightness and transparency in the design.
Q:Are steel I-beams cost-effective compared to other materials?
Yes, steel I-beams are generally considered cost-effective compared to other materials. They offer high strength-to-weight ratio, durability, and ease of construction, making them a popular choice in various industries. Additionally, steel is widely available, recyclable, and has a long lifespan, reducing maintenance and replacement costs.
Q:Can steel I-beams be customized for specific project requirements?
Steel I-beams can indeed be tailored to fit the unique requirements of a project. Manufacturers of steel offer a vast array of customization options, allowing architects and engineers to create I-beams that precisely fulfill the needs of their projects. These options encompass alterations in size, shape, and dimensions of the I-beam, as well as adjustments to its material composition and strength properties. By doing so, the I-beams are able to effectively support the loads and stresses specific to the project at hand. Additionally, manufacturers can also apply specialized coatings or treatments to bolster durability and resistance to corrosion or fire, depending on the project's demands. All in all, customization of steel I-beams facilitates optimized structural design, thereby ensuring safety and efficiency across a diverse range of construction ventures.
Q:Can steel I-beams be used in coastal or high-humidity environments?
Yes, steel I-beams can be used in coastal or high-humidity environments. However, they require proper protection against corrosion to ensure their longevity and structural integrity. This can be achieved through measures such as using corrosion-resistant coatings, galvanizing, or stainless steel construction. Regular maintenance and inspections are also necessary to prevent or address any corrosion issues that may arise in such environments.
Q:H steel and I-beam, which bearing good?
H steel is deep in groove and big in thickness and can bear two directions of force. I-beam can only be used for cross beams, and H steel can be used for structural load-bearing columns.
Q:What are the different types of steel finishes available for I-beams?
There is a variety of steel finishes available for I-beams, each possessing unique properties and advantages. The following are some of the most commonly used types: 1. Hot-dip galvanized: A favored finish that offers remarkable resistance against corrosion. The I-beams are immersed in molten zinc, forming a protective layer on the steel. Hot-dip galvanized finishes are frequently employed in outdoor settings where the beams may be exposed to moisture or harsh weather conditions. 2. Painted: Steel I-beams can also be painted to create a protective barrier against corrosion. The paint acts as a shield between the steel and the surroundings, preventing oxidation and rusting. Painted finishes are available in numerous colors and can be customized to match specific aesthetic requirements. 3. Powder-coated: Powder coating is a durable finish applied as a dry powder and then cured under heat. This process generates a hard, smooth, and appealing finish that provides excellent resistance to chipping, scratching, and fading. Powder-coated finishes come in a wide array of colors and can be tailored to meet specific design preferences. 4. Bare steel: In certain cases, I-beams are left untreated without additional finishes. This is typically observed in indoor applications or scenarios where the beams are not exposed to moisture or corrosive elements. Bare steel finishes offer a natural and industrial appearance, but they may be more prone to rusting over time. 5. Epoxy coated: Epoxy coatings are commonly utilized in industrial and marine environments where I-beams encounter harsh chemicals or high humidity. The epoxy coating forms a barrier that safeguards the steel from corrosion and chemical damage. These finishes are highly resistant to abrasion, impact, and UV rays. When selecting a steel finish for I-beams, it is crucial to consider the specific requirements of your project. Factors such as environmental conditions, desired aesthetics, and budget should all be taken into account to make the best choice for your application. Seeking guidance from a steel specialist or engineer can assist you in determining the most suitable finish for your particular needs.
Q:Can steel I-beams be used in residential construction?
Yes, steel I-beams can be used in residential construction. Steel I-beams offer several advantages over traditional wood beams, such as greater strength and durability. They can support heavier loads and span longer distances without the need for additional structural support. This makes them ideal for building large open spaces and multi-story homes. Additionally, steel I-beams are resistant to rot, pests, and fire, making them a safer choice for residential construction. While steel I-beams may be more expensive upfront, their long lifespan and minimal maintenance requirements can offset the initial cost.

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