- All
- Product Name
- Product Keyword
- Product Model
- Product Summary
- Product Description
- Multi Field Search
| Quantity: | |
|---|---|
Steel Bridge
In an era where sustainable infrastructure is a global priority, eco-friendly prefabricated steel bridges have emerged as a forward-thinking solution—marrying environmental responsibility with the long-lasting performance needed for modern connectivity. These bridges are engineered to minimize ecological impact at every stage, from production to end-of-life, while delivering the durability to serve communities for decades.
A key eco-friendly feature lies in steel’s inherent sustainability. Steel is one of the most recyclable materials globally, with over 80% of steel used in construction being repurposed from existing sources. Prefabricated steel bridges leverage this: their components are often made from recycled steel, reducing reliance on virgin ore extraction and cutting carbon emissions associated with raw material processing. Additionally, at the end of the bridge’s lifespan (typically 50+ years), nearly all steel components can be recycled again, creating a circular economy loop that minimizes waste—unlike concrete bridges, which often end up in landfills.
The prefabrication process further enhances environmental friendliness. By manufacturing components in controlled factory settings, prefabricated steel bridges reduce on-site construction waste by up to 30% compared to traditional builds. Factories optimize material use, cutting down on excess steel or packaging, and limit on-site pollution (such as noise, dust, and fuel emissions from construction vehicles). For example, a rural bridge project using prefabricated steel avoided over 5 tons of on-site waste and reduced construction-related carbon emissions by 25%—a significant benefit for ecologically sensitive areas like riverbanks or forested regions.
Crucially, these eco-friendly designs do not compromise long-lasting use. The steel used is treated with corrosion-resistant coatings (like zinc or eco-friendly polymer layers) that protect against weathering, ensuring the bridge remains structurally sound for decades with minimal maintenance. This longevity reduces the need for frequent repairs or replacements, which would otherwise consume additional resources and generate more waste. In coastal areas, for instance, an eco-friendly prefabricated steel bridge can withstand saltwater corrosion for 40+ years, outperforming many traditional bridges while staying true to sustainable principles.
In conclusion, eco-friendly prefabricated steel bridges prove that sustainability and durability can coexist. By prioritizing recyclable materials, waste reduction, and long-term performance, they offer a responsible choice for infrastructure projects aiming to build a greener, more resilient future.
| CB200 Truss Press Limited Table | |||||||||
| NO. | Internal Force | Structure Form | |||||||
| Not Reinforced Model | Reinforced Model | ||||||||
| SS | DS | TS | QS | SSR | DSR | TSR | QSR | ||
| 200 | Standard Truss Moment(kN.m) | 1034.3 | 2027.2 | 2978.8 | 3930.3 | 2165.4 | 4244.2 | 6236.4 | 8228.6 |
| 200 | Standard Truss Shear (kN) | 222.1 | 435.3 | 639.6 | 843.9 | 222.1 | 435.3 | 639.6 | 843.9 |
| 201 | High Bending Truss Moment(kN.m) | 1593.2 | 3122.8 | 4585.5 | 6054.3 | 3335.8 | 6538.2 | 9607.1 | 12676.1 |
| 202 | High Bending Truss Shear(kN) | 348 | 696 | 1044 | 1392 | 348 | 696 | 1044 | 1392 |
| 203 | Shear Force of Super High Shear Truss(kN) | 509.8 | 999.2 | 1468.2 | 1937.2 | 509.8 | 999.2 | 1468.2 | 1937.2 |
| CB200 Table of Geometric Characteristics of Truss Bridge(Half Bridge) | ||||
| Structure | Geometric Characteristics | |||
| Geometric Characteristics | Chord Area(cm2) | Section Properties(cm3) | Moment of Inertia(cm4) | |
| ss | SS | 25.48 | 5437 | 580174 |
| SSR | 50.96 | 10875 | 1160348 | |
| DS | DS | 50.96 | 10875 | 1160348 |
| DSR1 | 76.44 | 16312 | 1740522 | |
| DSR2 | 101.92 | 21750 | 2320696 | |
| TS | TS | 76.44 | 16312 | 1740522 |
| TSR2 | 127.4 | 27185 | 2900870 | |
| TSR3 | 152.88 | 32625 | 3481044 | |
| QS | QS | 101.92 | 21750 | 2320696 |
| QSR3 | 178.36 | 38059 | 4061218 | |
| QSR4 | 203.84 | 43500 | 4641392 | |
In an era where sustainable infrastructure is a global priority, eco-friendly prefabricated steel bridges have emerged as a forward-thinking solution—marrying environmental responsibility with the long-lasting performance needed for modern connectivity. These bridges are engineered to minimize ecological impact at every stage, from production to end-of-life, while delivering the durability to serve communities for decades.
A key eco-friendly feature lies in steel’s inherent sustainability. Steel is one of the most recyclable materials globally, with over 80% of steel used in construction being repurposed from existing sources. Prefabricated steel bridges leverage this: their components are often made from recycled steel, reducing reliance on virgin ore extraction and cutting carbon emissions associated with raw material processing. Additionally, at the end of the bridge’s lifespan (typically 50+ years), nearly all steel components can be recycled again, creating a circular economy loop that minimizes waste—unlike concrete bridges, which often end up in landfills.
The prefabrication process further enhances environmental friendliness. By manufacturing components in controlled factory settings, prefabricated steel bridges reduce on-site construction waste by up to 30% compared to traditional builds. Factories optimize material use, cutting down on excess steel or packaging, and limit on-site pollution (such as noise, dust, and fuel emissions from construction vehicles). For example, a rural bridge project using prefabricated steel avoided over 5 tons of on-site waste and reduced construction-related carbon emissions by 25%—a significant benefit for ecologically sensitive areas like riverbanks or forested regions.
Crucially, these eco-friendly designs do not compromise long-lasting use. The steel used is treated with corrosion-resistant coatings (like zinc or eco-friendly polymer layers) that protect against weathering, ensuring the bridge remains structurally sound for decades with minimal maintenance. This longevity reduces the need for frequent repairs or replacements, which would otherwise consume additional resources and generate more waste. In coastal areas, for instance, an eco-friendly prefabricated steel bridge can withstand saltwater corrosion for 40+ years, outperforming many traditional bridges while staying true to sustainable principles.
In conclusion, eco-friendly prefabricated steel bridges prove that sustainability and durability can coexist. By prioritizing recyclable materials, waste reduction, and long-term performance, they offer a responsible choice for infrastructure projects aiming to build a greener, more resilient future.
| CB200 Truss Press Limited Table | |||||||||
| NO. | Internal Force | Structure Form | |||||||
| Not Reinforced Model | Reinforced Model | ||||||||
| SS | DS | TS | QS | SSR | DSR | TSR | QSR | ||
| 200 | Standard Truss Moment(kN.m) | 1034.3 | 2027.2 | 2978.8 | 3930.3 | 2165.4 | 4244.2 | 6236.4 | 8228.6 |
| 200 | Standard Truss Shear (kN) | 222.1 | 435.3 | 639.6 | 843.9 | 222.1 | 435.3 | 639.6 | 843.9 |
| 201 | High Bending Truss Moment(kN.m) | 1593.2 | 3122.8 | 4585.5 | 6054.3 | 3335.8 | 6538.2 | 9607.1 | 12676.1 |
| 202 | High Bending Truss Shear(kN) | 348 | 696 | 1044 | 1392 | 348 | 696 | 1044 | 1392 |
| 203 | Shear Force of Super High Shear Truss(kN) | 509.8 | 999.2 | 1468.2 | 1937.2 | 509.8 | 999.2 | 1468.2 | 1937.2 |
| CB200 Table of Geometric Characteristics of Truss Bridge(Half Bridge) | ||||
| Structure | Geometric Characteristics | |||
| Geometric Characteristics | Chord Area(cm2) | Section Properties(cm3) | Moment of Inertia(cm4) | |
| ss | SS | 25.48 | 5437 | 580174 |
| SSR | 50.96 | 10875 | 1160348 | |
| DS | DS | 50.96 | 10875 | 1160348 |
| DSR1 | 76.44 | 16312 | 1740522 | |
| DSR2 | 101.92 | 21750 | 2320696 | |
| TS | TS | 76.44 | 16312 | 1740522 |
| TSR2 | 127.4 | 27185 | 2900870 | |
| TSR3 | 152.88 | 32625 | 3481044 | |
| QS | QS | 101.92 | 21750 | 2320696 |
| QSR3 | 178.36 | 38059 | 4061218 | |
| QSR4 | 203.84 | 43500 | 4641392 | |
