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Steel Bridge
Safety is the top priority on any building site, where heavy machinery, frequent worker movement, and changing construction conditions pose constant risks. High - quality temporary steel structures have become essential safeguards, providing reliable, secure solutions that address key safety challenges while supporting smooth construction operations.
One of the primary contributions of these steel structures to site safety is their exceptional structural stability. Made from high - grade steel with strict quality control, they boast superior load - bearing capacity and resistance to external pressures. For example, temporary steel access towers, used by workers to reach high construction areas, offer stable platforms that minimize the risk of collapses—unlike weaker alternatives that may wobble or fail under weight. Similarly, temporary steel barricades and fencing create clear, sturdy boundaries, separating construction zones from public areas or non - work zones, preventing unauthorized access and reducing the chance of accidents involving pedestrians or stray vehicles.
These structures also enhance safety by protecting workers and materials from harsh conditions. Temporary steel shelters and canopies shield construction teams from rain, intense sunlight, or strong winds, ensuring they can work in safer, more comfortable environments. They also provide secure storage for sensitive materials like electrical components or chemicals, keeping them away from moisture, dust, or potential damage—this not only preserves material quality but also avoids safety hazards such as chemical leaks or short circuits caused by exposed equipment.
Moreover, high - quality temporary steel structures are designed with safety - focused features and easy adaptability. Many come with anti - slip surfaces on walkways, reinforced handrails on platforms, and clear signage, further reducing accident risks. Their modular design allows for quick assembly and disassembly, ensuring they can be adjusted as the construction site evolves—for instance, expanding a temporary steel loading dock as material deliveries increase, without disrupting site safety protocols.
In conclusion, high - quality temporary steel structures are vital for creating safe building sites. Their stability, protective capabilities, and safety - oriented design make them indispensable tools, helping construction teams mitigate risks, protect workers, and maintain a secure environment throughout the project lifecycle.
| 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 | |
Safety is the top priority on any building site, where heavy machinery, frequent worker movement, and changing construction conditions pose constant risks. High - quality temporary steel structures have become essential safeguards, providing reliable, secure solutions that address key safety challenges while supporting smooth construction operations.
One of the primary contributions of these steel structures to site safety is their exceptional structural stability. Made from high - grade steel with strict quality control, they boast superior load - bearing capacity and resistance to external pressures. For example, temporary steel access towers, used by workers to reach high construction areas, offer stable platforms that minimize the risk of collapses—unlike weaker alternatives that may wobble or fail under weight. Similarly, temporary steel barricades and fencing create clear, sturdy boundaries, separating construction zones from public areas or non - work zones, preventing unauthorized access and reducing the chance of accidents involving pedestrians or stray vehicles.
These structures also enhance safety by protecting workers and materials from harsh conditions. Temporary steel shelters and canopies shield construction teams from rain, intense sunlight, or strong winds, ensuring they can work in safer, more comfortable environments. They also provide secure storage for sensitive materials like electrical components or chemicals, keeping them away from moisture, dust, or potential damage—this not only preserves material quality but also avoids safety hazards such as chemical leaks or short circuits caused by exposed equipment.
Moreover, high - quality temporary steel structures are designed with safety - focused features and easy adaptability. Many come with anti - slip surfaces on walkways, reinforced handrails on platforms, and clear signage, further reducing accident risks. Their modular design allows for quick assembly and disassembly, ensuring they can be adjusted as the construction site evolves—for instance, expanding a temporary steel loading dock as material deliveries increase, without disrupting site safety protocols.
In conclusion, high - quality temporary steel structures are vital for creating safe building sites. Their stability, protective capabilities, and safety - oriented design make them indispensable tools, helping construction teams mitigate risks, protect workers, and maintain a secure environment throughout the project lifecycle.
| 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 | |
