hot rolled channel steel

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Quick Details

Standard:ASTM, BS, DIN, GB, JIS
Dimensions:6.3#-32#
Grade:Q235-420B
Place of Origin:Hebei, China (Mainland)
Brand Name:Dinghe
Model Number:6.3#-32#
Shape:U Channel
Application:construction
Perforated Or Not:Not Perforated
length:6m-12m

Packaging & Delivery

Packaging Details:	Sea-worthy packing or according to the customer's requirments
Delivery Detail:	about 30 days after receiving your payment

Specifications

1. High mechanical strength
2. Standard: GB, JIS, DIN
3. Having competitive prices and good quality
4. Short delivery time

Specifications

JIS standard hot rolled steel H beams
1.size:100*100mm-400*400mm
2.standard: GB,JIS,EN,ASTM
3.Q235B,Q345,SS400...

JIS Standard Hot rolled steel H- beams

1. Good service, competitive price.

2. Standard: GB, JIS, ASTM, DIN...

3. Material: Q235, Q345, SS400, ASTM A36, S235JR, SS540.

4. Length: 5.8m-12m, or as your request.

5.Full size and qualified mechanical equipment.

6. prompt delivery time.

Q:Can steel channels be used in the construction of retaining walls?: Yes, steel channels can be used in the construction of retaining walls. Steel channels are often used as structural components in various construction projects due to their durability and strength. When used in retaining walls, steel channels can provide additional reinforcement and stability to the structure. They can be embedded into the ground as vertical or horizontal supports, helping to distribute the load and prevent soil erosion. Steel channels are also resistant to weathering and corrosion, making them suitable for long-term use in retaining walls. However, it is important to consider the specific design requirements and consult with a structural engineer to ensure the appropriate size, spacing, and placement of steel channels for the specific retaining wall project.

Q:Can steel channels be used for both vertical and horizontal applications?: Steel channels have the ability to be utilized in both vertical and horizontal applications. These versatile structural components are frequently employed in diverse construction projects. Their shape and design render them suitable for a variety of purposes, including offering support and stability in both horizontal and vertical orientations. Steel channels can effectively be employed in constructing beams, columns, frames, or other structural elements, regardless of whether they are in vertical or horizontal configurations.

Q:Can steel channels be used in power plant construction?: Yes, steel channels can be used in power plant construction. Steel channels are commonly used in structural and construction applications due to their strength, durability, and versatility. In power plant construction, steel channels can be utilized for a variety of purposes such as supporting heavy equipment, creating structural frames, and providing reinforcement for concrete structures. These channels can withstand high loads and provide stability and support to the overall structure of the power plant. Additionally, steel channels can be easily fabricated and customized to meet specific project requirements, making them a suitable choice for power plant construction.

Q:12# how much is a channel steel? The length is 6 meters. GB steel channel should be used: Channel steel is a kind of carbon structural steel used for construction and machinery. It is a complex section steel. Its cross section has a groove shape. Channel steel is mainly used in building structure, curtain wall engineering, mechanical equipment and vehicle manufacturing, etc..

Q:What is the difference between the main keel and the angle steel and the channel steel?: Channel steel is a strip of steel with a cross section. Section steel with groove shape.Channel steel is a kind of carbon structural steel used for construction and machinery. It is a complex section steel. Its cross section has a groove shape. Channel steel is mainly used in building structure, curtain wall engineering, mechanical equipment and vehicle manufacturing, etc.. 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:Are steel channels suitable for the power generation industry?: Yes, steel channels are suitable for the power generation industry. Steel channels provide strong structural support and can withstand the heavy loads and forces commonly found in the power generation industry. Additionally, steel channels offer excellent durability and resistance to corrosion, making them ideal for long-term use in power plants and other power generation facilities.

Q:Can steel channels be used for fencing?: Indeed, fencing can make use of steel channels. With their versatility and strength, steel channels prove themselves fitting for a multitude of fencing applications. Whether it be as posts, rails, or supports within a fencing system, their durability and stability shine through, making them an exceptional choice for both residential and commercial fencing endeavors. Moreover, the adaptability of steel channels allows for effortless customization to cater to specific fencing demands, encompassing height, design, and security prerequisites. All in all, steel channels present a dependable and enduring solution for all fencing purposes.

Q:What are the different load combinations considered for steel channels?: The load combinations considered for steel channels depend on the specific application and design requirements. The typical load combinations for steel channels include dead loads, live loads, wind loads, seismic loads, and other applicable loads. Dead loads are the permanent or static loads that constantly act on the structure. They include the self-weight of the steel channel, fixtures, and any other permanent elements attached to it. On the other hand, live loads are variable loads that do not permanently act on the structure. They can include people, furniture, equipment, or other movable loads. Wind loads are important for structures exposed to wind. They take into account the pressure and suction forces exerted by the wind on the steel channel. Seismic loads, or earthquake loads, are considered in areas prone to seismic activity. They account for the horizontal and vertical forces generated during an earthquake. Besides these primary load types, other loads like snow loads, dynamic loads, impact loads, and thermal loads may also need to be considered. This depends on the specific design requirements and intended use of the steel channel. Engineers typically refer to relevant building codes, standards, and design guidelines to determine the appropriate load combinations. These codes and standards provide guidance on load combinations for different applications and regions. They ensure that the steel channel is designed to safely carry the expected loads without failure or excessive deformation.

Q:How are steel channels measured?: Two key dimensions are typically used to measure steel channels: height and width. The height represents the vertical measurement from top to bottom, while the width represents the horizontal measurement from side to side. These dimensions play a crucial role in determining the size and shape of the channel, ultimately impacting its strength and load-bearing capacity. Additionally, the thickness of the steel used to construct the channel is also taken into account during measurement. This thickness is typically given in gauge or millimeters and signifies the thickness of the steel walls. By knowing the height, width, and thickness, one can ascertain the overall dimensions and characteristics of a steel channel, making it suitable for a wide range of construction and manufacturing applications.

Q:I unit of a shopping center construction project, 4.2 meters high, four floors.Because the first floor is adjacent to the building, the scaffold can not be erectedWe would like to use 20 channel three from 2 to 15 meters, ask how much channel spacing?: At the end of the shelf and around the corner of the building, a scissors brace must be provided, and the number of roots for each pair of scissors to stand across the vertical bar should be between the roots of the 5--7. The width of each shear brace shall not be less than 4, and shall not be less than 6m. The angle between the inclined bar and the ground shall be between 45~60 degrees. Scissors should take bottom to top longitudinal continuous setting, middle scissors between the spacing should be less than 15m. A double row scaffold with a height of 24m or more shall be provided with scissors support in the whole length and height of the outer facade.

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