Products
We boast an in-house bridge design team capable of customizing urban overpasses, pedestrian bridges, and lightweight bridges tailored to client specifications. Aluminum alloy bridges feature distinct advantages: lightweight construction, prefabricated components, rapid installation, long-term durability, deformation resistance, corrosion immunity, and recyclable materials. Notably, a majority of cities have initiated investments in deploying aluminum alloy bridge applications.
Aluminum alloy elevated bridge
We have an in-house bridge design team specializing in customizing urban overpasses, pedestrian bridges, and lightweight structures to meet specific client needs. Aluminum alloy bridges offer distinct advantages: lightweight composition, prefabricated modules, rapid installation, long-lasting durability, deformation resistance, corrosion immunity, and recyclable materials. Significantly, most cities have now embarked on integrating aluminum alloy bridges into their infrastructure projects.
We have an in-house bridge design team specializing in customizing urban overpasses, pedestrian bridges, and lightweight structures to meet specific client needs. Aluminum alloy bridges offer distinct advantages: lightweight composition, prefabricated modules, rapid installation, long-lasting durability, deformation resistance, corrosion immunity, and recyclable materials. Significantly, most cities have now embarked on integrating aluminum alloy bridges into their infrastructure projects.
Aluminum alloy pedestrian overpass
Aluminum alloy bridges exhibit outstanding performance due to their unique characteristics. Firstly, its weight is extremely light, only 34% of the same volume of steel, but its strength is comparable to steel, which significantly reduces the self weight of the structure and greatly reduces the overall height of the bridge. Secondly, aluminum alloy has excellent durability, strong corrosion resistance, and is easy to polish on the surface, without the need for complex anti-corrosion treatment like steel structures, resulting in low maintenance costs. This gives aluminum alloy bridges a significant advantage in terms of service life.
Lightweight aluminum bridge design
In terms of installation and erection, the components of aluminum alloy bridges are completed through factory production and off-site assembly. Due to their lightweight nature, the installation process does not require heavy equipment and has minimal impact on road traffic, improving construction efficiency. In addition, the fatigue resistance of aluminum alloy has been tested by authoritative institutions and proven to be superior to conventional bridges, which means that its performance under long-term loads is better, more stable and reliable. Finally, aluminum alloy is an environmentally friendly material that can be recycled and does not produce construction waste. Additionally, the earth's crust has abundant reserves of aluminum, which can be easily obtained through electrolysis. This not only conforms to the concept of sustainable development, but also reduces the cost of resource consumption.
PRODUCTS
We boast an in-house bridge design team capable of customizing urban overpasses, pedestrian bridges, and lightweight bridges tailored to client specifications. Aluminum alloy bridges feature distinct advantages: lightweight construction, prefabricated components, rapid installation, long-term durability, deformation resistance, corrosion immunity, and recyclable materials. Notably, a majority of cities have initiated investments in deploying aluminum alloy bridge applications.
Aluminum alloy elevated bridge
We have an in-house bridge design team specializing in customizing urban overpasses, pedestrian bridges, and lightweight structures to meet specific client needs. Aluminum alloy bridges offer distinct advantages: lightweight composition, prefabricated modules, rapid installation, long-lasting durability, deformation resistance, corrosion immunity, and recyclable materials. Significantly, most cities have now embarked on integrating aluminum alloy bridges into their infrastructure projects.
We have an in-house bridge design team specializing in customizing urban overpasses, pedestrian bridges, and lightweight structures to meet specific client needs. Aluminum alloy bridges offer distinct advantages: lightweight composition, prefabricated modules, rapid installation, long-lasting durability, deformation resistance, corrosion immunity, and recyclable materials. Significantly, most cities have now embarked on integrating aluminum alloy bridges into their infrastructure projects.
Aluminum alloy pedestrian overpass
Aluminum alloy bridges exhibit outstanding performance due to their unique characteristics. Firstly, its weight is extremely light, only 34% of the same volume of steel, but its strength is comparable to steel, which significantly reduces the self weight of the structure and greatly reduces the overall height of the bridge. Secondly, aluminum alloy has excellent durability, strong corrosion resistance, and is easy to polish on the surface, without the need for complex anti-corrosion treatment like steel structures, resulting in low maintenance costs. This gives aluminum alloy bridges a significant advantage in terms of service life.
Lightweight aluminum bridge design
In terms of installation and erection, the components of aluminum alloy bridges are completed through factory production and off-site assembly. Due to their lightweight nature, the installation process does not require heavy equipment and has minimal impact on road traffic, improving construction efficiency. In addition, the fatigue resistance of aluminum alloy has been tested by authoritative institutions and proven to be superior to conventional bridges, which means that its performance under long-term loads is better, more stable and reliable. Finally, aluminum alloy is an environmentally friendly material that can be recycled and does not produce construction waste. Additionally, the earth's crust has abundant reserves of aluminum, which can be easily obtained through electrolysis. This not only conforms to the concept of sustainable development, but also reduces the cost of resource consumption.
