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A heavy-duty steel structure refers to a construction or framework that is made primarily or extensively using heavy-duty steel materials. It is designed to withstand substantial loads, resist external forces, and provide long-lasting stability and durability.
Heavy duty steel structure is used for a variety of applications, including construction, mining, and manufacturing. It is often used in the construction of plants, workshops, warehouses, bridges, railway and metro Stations buildings, and other structures that require high levels of strength and durability. It is also commonly used in the mining industry for equipment and machinery, as well as in the manufacturing of various products, such as heavy machinery, vehicles, and industrial equipment.
Product information
The product we mentioned here is a packaging workshop of a chemical factory in size 61m x 27m x 24.6m, the whole project's steel consumption is about 1100 tons. A significant amount of steel is required to achieve a floor load capacity of 1500kg/m2, which is higher compared to the typical load capacity of 500-1000kg/m2 for warehouses or workshop floors. The use of heavy steel in constructing this workshop is because this large company has an annual production of 70,000 tons of water-based emulsion.
Steel structural drawing display:
Steel frame construction material component:
1) Column:(Q355B)
GZ1: □600*600*38*38*38*38mm
GZ2: □650*400*20*20*20*20mm
GZ3: □500*400*20*20*20*20mm
GZ4: □450*450*20*20*20*20mm
GZ5: H600*450*18*20mm
GZ6: H400*450*14*22mm
GZ7: H350*220*14*20mm
GZ8: HW300*300*10*15mm
GZ9: HW400*400*13*21mm
GZ10: H200*200*8*12mm
2) Beam:
GL1: H1650*500*28*30mm
GL2: H1500*400*22*30mm
GL3: H1400*400*22*30mm
GL4: H1250*450*18*24mm
GL5: H1100*400*16*22mm
GL6: H1100*400*14*22mm
GL7: H1300*200*18*18mm
GL8: HM550*300*11*18mm
GL9: HM488*300*11*18mm
GL10: HM440*300*11*18mm
GL11~GL25......
Steel structure workshop project pictures:
We focus on every single detail:
1) In the process of manufacturing steel structures, the reason for not painting the hole-drilled areas on the connecting plates can be attributed to the following two factors:
a. Increased friction: Leaving the hole-drilled areas unpainted can increase the friction at the screw connection points. Increased friction enhances the stability and resistance to sliding at the connection, thereby making the entire steel structure more stable.
B. Avoiding coating interference during assembly: Coatings may introduce gaps between components or interfere with proper bolt installation during the assembly process. By not painting the hole-drilled areas, potential negative impacts of coatings on the assembly process can be avoided, ensuring that bolts can correctly connect the components.
2) In the process of steel structure production, when the steel beam needs two connecting plates, only one plate is welded in our workshop, while the other plate is left for on-site welding. That is the installation requirements. The reasons for this are as follows:
a. Some connecting plates need to be installed on-site to meet specific installation requirements. This may involve alignment with existing structures, adjustments, or adaptation to on-site conditions. Therefore, leaving these connecting plates for on-site welding installation can better meet the installation requirements.
b. Leaving the other component plate for on-site welding installation allows construction personnel to assemble and adjust it more conveniently at the actual site to adapt to the practical conditions.
Heavy-duty steel structures offer several advantages:
Strength and Durability: Steel is known for its exceptional strength and durability, making it an ideal material for heavy-duty structures. It has a high load-bearing capacity, providing structural stability and the ability to withstand heavy loads and harsh environmental conditions.
Design Flexibility: Steel structures offer design flexibility, allowing for versatile and customized architectural designs. Steel can be easily fabricated into various shapes and sizes, enabling the construction of complex and unique structures to meet specific project requirements.
Cost-Effectiveness: Steel structures require minimal maintenance, have a long lifespan, and are resistant to rot, pests, and fire. Additionally, steel components can be prefabricated off-site, reducing construction time and labor costs.
Speed of Construction: Steel structures can be erected quickly due to the use of prefabricated steel components. This results in shorter construction time frames compared to traditional construction methods, allowing for faster project completion and reduced disruption to surrounding areas.
Resistance to Natural Forces: Steel structures have excellent resistance to natural forces such as earthquakes, hurricanes, and high winds. Steel's inherent strength and ductility allow it to absorb and dissipate energy, reducing the risk of structural failure during extreme events.
Adaptability and Expansion: Steel structures can be easily modified, expanded, or repurposed to accommodate changing needs. This flexibility makes steel an ideal choice for industrial buildings, warehouses, factories, and other structures that may require future modifications or expansions.
A heavy-duty steel structure refers to a construction or framework that is made primarily or extensively using heavy-duty steel materials. It is designed to withstand substantial loads, resist external forces, and provide long-lasting stability and durability.
Heavy duty steel structure is used for a variety of applications, including construction, mining, and manufacturing. It is often used in the construction of plants, workshops, warehouses, bridges, railway and metro Stations buildings, and other structures that require high levels of strength and durability. It is also commonly used in the mining industry for equipment and machinery, as well as in the manufacturing of various products, such as heavy machinery, vehicles, and industrial equipment.
Product information
The product we mentioned here is a packaging workshop of a chemical factory in size 61m x 27m x 24.6m, the whole project's steel consumption is about 1100 tons. A significant amount of steel is required to achieve a floor load capacity of 1500kg/m2, which is higher compared to the typical load capacity of 500-1000kg/m2 for warehouses or workshop floors. The use of heavy steel in constructing this workshop is because this large company has an annual production of 70,000 tons of water-based emulsion.
Steel structural drawing display:
Steel frame construction material component:
1) Column:(Q355B)
GZ1: □600*600*38*38*38*38mm
GZ2: □650*400*20*20*20*20mm
GZ3: □500*400*20*20*20*20mm
GZ4: □450*450*20*20*20*20mm
GZ5: H600*450*18*20mm
GZ6: H400*450*14*22mm
GZ7: H350*220*14*20mm
GZ8: HW300*300*10*15mm
GZ9: HW400*400*13*21mm
GZ10: H200*200*8*12mm
2) Beam:
GL1: H1650*500*28*30mm
GL2: H1500*400*22*30mm
GL3: H1400*400*22*30mm
GL4: H1250*450*18*24mm
GL5: H1100*400*16*22mm
GL6: H1100*400*14*22mm
GL7: H1300*200*18*18mm
GL8: HM550*300*11*18mm
GL9: HM488*300*11*18mm
GL10: HM440*300*11*18mm
GL11~GL25......
Steel structure workshop project pictures:
We focus on every single detail:
1) In the process of manufacturing steel structures, the reason for not painting the hole-drilled areas on the connecting plates can be attributed to the following two factors:
a. Increased friction: Leaving the hole-drilled areas unpainted can increase the friction at the screw connection points. Increased friction enhances the stability and resistance to sliding at the connection, thereby making the entire steel structure more stable.
B. Avoiding coating interference during assembly: Coatings may introduce gaps between components or interfere with proper bolt installation during the assembly process. By not painting the hole-drilled areas, potential negative impacts of coatings on the assembly process can be avoided, ensuring that bolts can correctly connect the components.
2) In the process of steel structure production, when the steel beam needs two connecting plates, only one plate is welded in our workshop, while the other plate is left for on-site welding. That is the installation requirements. The reasons for this are as follows:
a. Some connecting plates need to be installed on-site to meet specific installation requirements. This may involve alignment with existing structures, adjustments, or adaptation to on-site conditions. Therefore, leaving these connecting plates for on-site welding installation can better meet the installation requirements.
b. Leaving the other component plate for on-site welding installation allows construction personnel to assemble and adjust it more conveniently at the actual site to adapt to the practical conditions.
Heavy-duty steel structures offer several advantages:
Strength and Durability: Steel is known for its exceptional strength and durability, making it an ideal material for heavy-duty structures. It has a high load-bearing capacity, providing structural stability and the ability to withstand heavy loads and harsh environmental conditions.
Design Flexibility: Steel structures offer design flexibility, allowing for versatile and customized architectural designs. Steel can be easily fabricated into various shapes and sizes, enabling the construction of complex and unique structures to meet specific project requirements.
Cost-Effectiveness: Steel structures require minimal maintenance, have a long lifespan, and are resistant to rot, pests, and fire. Additionally, steel components can be prefabricated off-site, reducing construction time and labor costs.
Speed of Construction: Steel structures can be erected quickly due to the use of prefabricated steel components. This results in shorter construction time frames compared to traditional construction methods, allowing for faster project completion and reduced disruption to surrounding areas.
Resistance to Natural Forces: Steel structures have excellent resistance to natural forces such as earthquakes, hurricanes, and high winds. Steel's inherent strength and ductility allow it to absorb and dissipate energy, reducing the risk of structural failure during extreme events.
Adaptability and Expansion: Steel structures can be easily modified, expanded, or repurposed to accommodate changing needs. This flexibility makes steel an ideal choice for industrial buildings, warehouses, factories, and other structures that may require future modifications or expansions.
