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Steel Bridge
In the fast-paced world of transportation infrastructure, where minimizing delays and ensuring long-term reliability are critical, durable prefabricated steel bridges have become a cornerstone of efficient solutions. These bridges combine off-site precision manufacturing with the inherent strength of steel, addressing diverse transportation needs—from rural connectivity gaps to urban traffic bottlenecks—while streamlining deployment and reducing operational disruptions.
Durability is embedded in every component of these bridges, thanks to high-quality steel construction. Most prefabricated steel bridges use galvanized or weather-resistant steel, which forms a protective barrier against corrosion, rust, and extreme weather conditions like heavy rain, snow, or salt spray. This resilience ensures the bridges maintain structural integrity for 50 years or more with minimal maintenance, avoiding the frequent repairs that plague less durable alternatives. For example, in a busy highway bypass project, a prefabricated steel bridge can withstand daily traffic from thousands of trucks and cars without wear, ensuring uninterrupted transportation flow and lowering long-term infrastructure costs.
The prefabricated nature of these bridges is what drives their efficiency in transportation solutions. All key components—from girders to deck panels—are manufactured in controlled factory environments with strict quality checks, eliminating on-site fabrication delays. This means components arrive at the project site ready for assembly, cutting construction time by 50% or more compared to traditional on-site built bridges. In an emergency scenario, such as a bridge collapse due to a storm, a prefabricated steel bridge can be transported and installed in days, restoring critical transportation links for emergency vehicles, commuters, and businesses—preventing economic losses from prolonged disruptions.
Moreover, these bridges adapt seamlessly to diverse transportation needs. They are available in standardized yet flexible designs, with span lengths ranging from 10 meters for small rural crossings to 40 meters for urban waterway crossings, and load capacities tailored for pedestrians, light vehicles, or heavy freight. This versatility makes them ideal for projects like connecting remote villages to main roads, expanding urban ring roads, or supporting temporary construction site access—all while maintaining efficiency and durability.
In conclusion, durable prefabricated steel bridges merge long-lasting performance with rapid deployment, making them indispensable for efficient transportation solutions. Their ability to reduce construction time, resist wear, and adapt to varied needs ensures they keep people and goods moving smoothly, even in the most demanding infrastructure scenarios.
| 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 the fast-paced world of transportation infrastructure, where minimizing delays and ensuring long-term reliability are critical, durable prefabricated steel bridges have become a cornerstone of efficient solutions. These bridges combine off-site precision manufacturing with the inherent strength of steel, addressing diverse transportation needs—from rural connectivity gaps to urban traffic bottlenecks—while streamlining deployment and reducing operational disruptions.
Durability is embedded in every component of these bridges, thanks to high-quality steel construction. Most prefabricated steel bridges use galvanized or weather-resistant steel, which forms a protective barrier against corrosion, rust, and extreme weather conditions like heavy rain, snow, or salt spray. This resilience ensures the bridges maintain structural integrity for 50 years or more with minimal maintenance, avoiding the frequent repairs that plague less durable alternatives. For example, in a busy highway bypass project, a prefabricated steel bridge can withstand daily traffic from thousands of trucks and cars without wear, ensuring uninterrupted transportation flow and lowering long-term infrastructure costs.
The prefabricated nature of these bridges is what drives their efficiency in transportation solutions. All key components—from girders to deck panels—are manufactured in controlled factory environments with strict quality checks, eliminating on-site fabrication delays. This means components arrive at the project site ready for assembly, cutting construction time by 50% or more compared to traditional on-site built bridges. In an emergency scenario, such as a bridge collapse due to a storm, a prefabricated steel bridge can be transported and installed in days, restoring critical transportation links for emergency vehicles, commuters, and businesses—preventing economic losses from prolonged disruptions.
Moreover, these bridges adapt seamlessly to diverse transportation needs. They are available in standardized yet flexible designs, with span lengths ranging from 10 meters for small rural crossings to 40 meters for urban waterway crossings, and load capacities tailored for pedestrians, light vehicles, or heavy freight. This versatility makes them ideal for projects like connecting remote villages to main roads, expanding urban ring roads, or supporting temporary construction site access—all while maintaining efficiency and durability.
In conclusion, durable prefabricated steel bridges merge long-lasting performance with rapid deployment, making them indispensable for efficient transportation solutions. Their ability to reduce construction time, resist wear, and adapt to varied needs ensures they keep people and goods moving smoothly, even in the most demanding infrastructure scenarios.
| 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 | |
