- All
- Product Name
- Product Keyword
- Product Model
- Product Summary
- Product Description
- Multi Field Search
| Quantity: | |
|---|---|
Steel Bridge
Across the globe, infrastructure projects—from rural road expansions in Africa to urban transit upgrades in Asia and disaster recovery efforts in the Americas—demand solutions that balance quality, adaptability, and efficiency. High-quality prefabricated steel bridges have emerged as a universal asset, meeting the diverse challenges of global 基建 (infrastructure) while ensuring long-term reliability and seamless integration into local contexts.
At the heart of their global appeal is uncompromising quality. These bridges are crafted from high-tensile, corrosion-resistant steel (often galvanized or coated with weatherproof materials) and manufactured in controlled factory settings, where precision engineering and rigorous testing—including load-bearing and environmental resistance checks—guarantee compliance with international standards (such as AASHTO or ISO). This quality ensures they withstand the world’s most extreme conditions: from the humid heat of Southeast Asian jungles, where rust is a constant threat, to the freezing temperatures of Northern Europe, where material brittleness risks structural failure. For example, in a Kenyan rural infrastructure project, a high-quality prefabricated steel bridge has endured annual monsoons and heavy livestock traffic for over a decade, remaining fully functional without major repairs.
Their prefabricated design makes them uniquely suited for global projects, where logistics and on-site constraints vary widely. All components are pre-cut, pre-drilled, and standardized for easy transportation—even to remote areas with limited road access. In a Peruvian mountain village project, bridge modules were shipped via cargo plane to a nearby airstrip, then transported by mules to the site, where a local team assembled them in weeks. This efficiency contrasts sharply with traditional on-site construction, which often faces delays due to weather, material shortages, or skilled labor gaps—common challenges in global infrastructure.
Moreover, these bridges adapt to diverse global needs. They can be customized for span lengths (from 8m to 50m), load capacities (for pedestrians, trucks, or trains), and local use cases: a bridge in India might be designed for heavy agricultural machinery, while one in Norway prioritizes resistance to snow accumulation. This versatility ensures they support key global infrastructure goals—such as connecting underserved communities, enhancing trade routes, or rebuilding after natural disasters—while aligning with local priorities.
In conclusion, high-quality prefabricated steel bridges are a linchpin of global infrastructure. Their durability, logistical flexibility, and adaptability make them a reliable solution for bridging gaps across continents, driving sustainable development and connectivity worldwide.
| 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 | |
Across the globe, infrastructure projects—from rural road expansions in Africa to urban transit upgrades in Asia and disaster recovery efforts in the Americas—demand solutions that balance quality, adaptability, and efficiency. High-quality prefabricated steel bridges have emerged as a universal asset, meeting the diverse challenges of global 基建 (infrastructure) while ensuring long-term reliability and seamless integration into local contexts.
At the heart of their global appeal is uncompromising quality. These bridges are crafted from high-tensile, corrosion-resistant steel (often galvanized or coated with weatherproof materials) and manufactured in controlled factory settings, where precision engineering and rigorous testing—including load-bearing and environmental resistance checks—guarantee compliance with international standards (such as AASHTO or ISO). This quality ensures they withstand the world’s most extreme conditions: from the humid heat of Southeast Asian jungles, where rust is a constant threat, to the freezing temperatures of Northern Europe, where material brittleness risks structural failure. For example, in a Kenyan rural infrastructure project, a high-quality prefabricated steel bridge has endured annual monsoons and heavy livestock traffic for over a decade, remaining fully functional without major repairs.
Their prefabricated design makes them uniquely suited for global projects, where logistics and on-site constraints vary widely. All components are pre-cut, pre-drilled, and standardized for easy transportation—even to remote areas with limited road access. In a Peruvian mountain village project, bridge modules were shipped via cargo plane to a nearby airstrip, then transported by mules to the site, where a local team assembled them in weeks. This efficiency contrasts sharply with traditional on-site construction, which often faces delays due to weather, material shortages, or skilled labor gaps—common challenges in global infrastructure.
Moreover, these bridges adapt to diverse global needs. They can be customized for span lengths (from 8m to 50m), load capacities (for pedestrians, trucks, or trains), and local use cases: a bridge in India might be designed for heavy agricultural machinery, while one in Norway prioritizes resistance to snow accumulation. This versatility ensures they support key global infrastructure goals—such as connecting underserved communities, enhancing trade routes, or rebuilding after natural disasters—while aligning with local priorities.
In conclusion, high-quality prefabricated steel bridges are a linchpin of global infrastructure. Their durability, logistical flexibility, and adaptability make them a reliable solution for bridging gaps across continents, driving sustainable development and connectivity worldwide.
| 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 | |
