Some of the world’s tallest bridges rise dramatically over deep river gorges and ravines, showcasing human ingenuity and remarkable engineering. Measured by deck height—the vertical distance from the bridge deck to the terrain below—these structures are more than mere transport links; they symbolize ambition, precision, and innovation in modern civil engineering. China dominates the global list, reflecting rapid infrastructure development across its mountainous regions. These bridges not only facilitate connectivity but also stimulate regional economic growth, reduce travel time, and provide scenic viewpoints. With advances in construction technology, materials, and design, future bridges are expected to push these heights even further, redefining the limits of architectural and engineering achievement.
List of 10 tallest bridges in the world
World’s highest bridges
Huajiang Grand Canyon Bridge (China)
The Huajiang Grand Canyon Bridge, completed in 2025 in Zhenfeng, Guizhou, stands as the world’s tallest bridge, towering 625 meters (2,051 feet) above the canyon floor. This cable-stayed structure spans a deep gorge, significantly reducing travel time across the region. Its construction involved advanced engineering techniques and high-strength materials to ensure stability and durability in a challenging mountainous environment. Besides serving as a vital transport link, the bridge has become a major tourist attraction, offering panoramic views of the canyon and showcasing China’s prowess in modern civil engineering.
Duge (Beipanjiang) Bridge (China)
Located in Dugexiang, Guizhou, the Duge Bridge—also called Beipanjiang Bridge—rises 565 meters (1,854 feet) above the river below. Completed in 2016, it forms a key part of the G56 Hangzhou–Ruili Expressway. This cable-stayed bridge spans a deep gorge and demonstrates exceptional engineering precision, overcoming the challenges posed by extreme terrain and seismic activity. The bridge has dramatically reduced travel time between Guizhou and Yunnan provinces, stimulating local trade and connectivity. Its elegant design and sheer height make it an iconic example of human ingenuity in high-altitude bridge construction.
Tianmen Bridge (China)
Tianmen Bridge, situated in Qinggangling, Guizhou, has a deck height of 560 meters (1,837 feet). This high-level bridge connects remote towns through the mountainous terrain and integrates advanced structural techniques to withstand wind and seismic forces. Its cable-stayed design ensures stability while maintaining aesthetic elegance. Apart from serving as a critical transport link, Tianmen Bridge has become a tourist magnet, drawing visitors fascinated by its dizzying height and scenic surroundings. It exemplifies how China is leveraging engineering innovation to overcome geographic challenges while boosting regional connectivity and economic growth.
Xiaowan Lancangjiang Bridge (China)
Scheduled to open in 2028, the Xiaowan Lancangjiang Bridge in Fengqing, Yunnan, will reach 520 meters (1,706 feet) above the Lancang River. This suspension bridge features a long main span and employs advanced construction techniques suitable for steep valleys and unstable terrain. Its purpose is to improve high-speed transport and regional connectivity in southwestern China. Beyond its functional importance, the bridge will serve as an architectural marvel and tourist attraction. It represents a milestone in Chinese infrastructure, combining safety, technological innovation, and scenic appeal in a region that previously faced significant transportation challenges.
Siduhe (Sidu River) Bridge (China)
The Siduhe Bridge in Yesanguanzhen, Hubei Province, rises 496 meters (1,627 feet) above the Sidu River. Completed in 2009, it is recognized for its remarkable height and engineering design. As a suspension bridge, it overcomes one of the deepest gorges in China, reducing travel times and connecting remote regions. Its massive towers and cables provide stability in an earthquake-prone area. The bridge also highlights human ingenuity in balancing aesthetics with functionality. Siduhe has become a reference point for engineers worldwide and symbolizes the ambitious spirit of modern Chinese infrastructure development.
Lugu Lake Bridge (China)
The Lugu Lake Bridge, set to open in 2026 in Changbaixiang, Sichuan, will rise 493 meters (1,617 feet) above the lake surface. This high-level bridge is designed as a cable-stayed structure with advanced materials to ensure resilience against wind and seismic forces. It will significantly enhance transportation in the region, providing faster travel across previously isolated mountainous areas. The bridge will also serve as a scenic attraction, offering visitors breathtaking views of Lugu Lake and surrounding landscapes. It demonstrates China’s ability to combine functionality, safety, and aesthetic appeal in challenging environments.
Puli Bridge (China)
Located in Pulixiang, Yunnan, the Puli Bridge reaches a deck height of 485 meters (1,591 feet) and was completed in 2015. Its cable-stayed design allows for efficient spanning of steep valleys while maintaining structural stability. The bridge has reduced travel time and enhanced economic integration in the region. It employs high-strength steel and concrete to resist extreme weather and seismic forces. Puli Bridge also attracts engineering enthusiasts and tourists for its height and dramatic scenery. It exemplifies how China continues to innovate in infrastructure development, overcoming geographic obstacles with advanced technology.
Jinshajiang Wudongde Bridge (China)
The Jinshajiang Wudongde Bridge, opening in 2028 in Hemenkou, Sichuan, will have a deck height of 485 meters (1,591 feet). As a high-level suspension bridge, it spans one of the region’s deepest valleys, connecting remote communities and reducing travel distances. Its construction involves advanced engineering to handle wind loads, seismic activity, and challenging terrain. Beyond transport, the bridge is designed as a scenic landmark. It exemplifies China’s capability in executing massive infrastructure projects, combining safety, longevity, and visual appeal in mountainous areas where conventional roadways are impractical.
Yalong Liangshan Bridge (China)
Completed in 2026, the Yalong Liangshan Bridge in Xichang, Sichuan, stands 480 meters (1,575 feet) above the Yalong River. Its suspension design allows it to traverse deep gorges while maintaining structural integrity in a seismic zone. The bridge has transformed regional connectivity by linking previously isolated communities and shortening travel times. Engineers designed it to withstand high winds and fluctuating weather conditions. The bridge’s impressive height and elegant design also attract tourists and engineering enthusiasts alike. Yalong Liangshan Bridge is a symbol of China’s commitment to pushing the boundaries of civil engineering.
Nanpanjiang Bridge Puzhehei (China)
Set to open in 2028 in Shedexiang, Yunnan, the Nanpanjiang Bridge Puzhehei will rise 475 meters (1,558 feet) above the river. Its cable-stayed design allows efficient spanning of deep valleys while maintaining stability in seismic and high-wind conditions. The bridge is part of regional infrastructure efforts to improve transport connectivity, reduce travel times, and boost local economic development. It will also become a tourist attraction, offering panoramic views of the surrounding landscapes. Nanpanjiang Bridge exemplifies modern engineering’s ability to blend functionality, safety, and aesthetic value in challenging terrains.
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List of 10 tallest bridges in the world
World’s highest bridges
Huajiang Grand Canyon Bridge (China)
The Huajiang Grand Canyon Bridge, completed in 2025 in Zhenfeng, Guizhou, stands as the world’s tallest bridge, towering 625 meters (2,051 feet) above the canyon floor. This cable-stayed structure spans a deep gorge, significantly reducing travel time across the region. Its construction involved advanced engineering techniques and high-strength materials to ensure stability and durability in a challenging mountainous environment. Besides serving as a vital transport link, the bridge has become a major tourist attraction, offering panoramic views of the canyon and showcasing China’s prowess in modern civil engineering.
Duge (Beipanjiang) Bridge (China)
Located in Dugexiang, Guizhou, the Duge Bridge—also called Beipanjiang Bridge—rises 565 meters (1,854 feet) above the river below. Completed in 2016, it forms a key part of the G56 Hangzhou–Ruili Expressway. This cable-stayed bridge spans a deep gorge and demonstrates exceptional engineering precision, overcoming the challenges posed by extreme terrain and seismic activity. The bridge has dramatically reduced travel time between Guizhou and Yunnan provinces, stimulating local trade and connectivity. Its elegant design and sheer height make it an iconic example of human ingenuity in high-altitude bridge construction.
Tianmen Bridge (China)
Tianmen Bridge, situated in Qinggangling, Guizhou, has a deck height of 560 meters (1,837 feet). This high-level bridge connects remote towns through the mountainous terrain and integrates advanced structural techniques to withstand wind and seismic forces. Its cable-stayed design ensures stability while maintaining aesthetic elegance. Apart from serving as a critical transport link, Tianmen Bridge has become a tourist magnet, drawing visitors fascinated by its dizzying height and scenic surroundings. It exemplifies how China is leveraging engineering innovation to overcome geographic challenges while boosting regional connectivity and economic growth.
Xiaowan Lancangjiang Bridge (China)
Scheduled to open in 2028, the Xiaowan Lancangjiang Bridge in Fengqing, Yunnan, will reach 520 meters (1,706 feet) above the Lancang River. This suspension bridge features a long main span and employs advanced construction techniques suitable for steep valleys and unstable terrain. Its purpose is to improve high-speed transport and regional connectivity in southwestern China. Beyond its functional importance, the bridge will serve as an architectural marvel and tourist attraction. It represents a milestone in Chinese infrastructure, combining safety, technological innovation, and scenic appeal in a region that previously faced significant transportation challenges.
Siduhe (Sidu River) Bridge (China)
The Siduhe Bridge in Yesanguanzhen, Hubei Province, rises 496 meters (1,627 feet) above the Sidu River. Completed in 2009, it is recognized for its remarkable height and engineering design. As a suspension bridge, it overcomes one of the deepest gorges in China, reducing travel times and connecting remote regions. Its massive towers and cables provide stability in an earthquake-prone area. The bridge also highlights human ingenuity in balancing aesthetics with functionality. Siduhe has become a reference point for engineers worldwide and symbolizes the ambitious spirit of modern Chinese infrastructure development.
Lugu Lake Bridge (China)
The Lugu Lake Bridge, set to open in 2026 in Changbaixiang, Sichuan, will rise 493 meters (1,617 feet) above the lake surface. This high-level bridge is designed as a cable-stayed structure with advanced materials to ensure resilience against wind and seismic forces. It will significantly enhance transportation in the region, providing faster travel across previously isolated mountainous areas. The bridge will also serve as a scenic attraction, offering visitors breathtaking views of Lugu Lake and surrounding landscapes. It demonstrates China’s ability to combine functionality, safety, and aesthetic appeal in challenging environments.
Puli Bridge (China)
Located in Pulixiang, Yunnan, the Puli Bridge reaches a deck height of 485 meters (1,591 feet) and was completed in 2015. Its cable-stayed design allows for efficient spanning of steep valleys while maintaining structural stability. The bridge has reduced travel time and enhanced economic integration in the region. It employs high-strength steel and concrete to resist extreme weather and seismic forces. Puli Bridge also attracts engineering enthusiasts and tourists for its height and dramatic scenery. It exemplifies how China continues to innovate in infrastructure development, overcoming geographic obstacles with advanced technology.
Jinshajiang Wudongde Bridge (China)
The Jinshajiang Wudongde Bridge, opening in 2028 in Hemenkou, Sichuan, will have a deck height of 485 meters (1,591 feet). As a high-level suspension bridge, it spans one of the region’s deepest valleys, connecting remote communities and reducing travel distances. Its construction involves advanced engineering to handle wind loads, seismic activity, and challenging terrain. Beyond transport, the bridge is designed as a scenic landmark. It exemplifies China’s capability in executing massive infrastructure projects, combining safety, longevity, and visual appeal in mountainous areas where conventional roadways are impractical.
Yalong Liangshan Bridge (China)
Completed in 2026, the Yalong Liangshan Bridge in Xichang, Sichuan, stands 480 meters (1,575 feet) above the Yalong River. Its suspension design allows it to traverse deep gorges while maintaining structural integrity in a seismic zone. The bridge has transformed regional connectivity by linking previously isolated communities and shortening travel times. Engineers designed it to withstand high winds and fluctuating weather conditions. The bridge’s impressive height and elegant design also attract tourists and engineering enthusiasts alike. Yalong Liangshan Bridge is a symbol of China’s commitment to pushing the boundaries of civil engineering.
Nanpanjiang Bridge Puzhehei (China)
Set to open in 2028 in Shedexiang, Yunnan, the Nanpanjiang Bridge Puzhehei will rise 475 meters (1,558 feet) above the river. Its cable-stayed design allows efficient spanning of deep valleys while maintaining stability in seismic and high-wind conditions. The bridge is part of regional infrastructure efforts to improve transport connectivity, reduce travel times, and boost local economic development. It will also become a tourist attraction, offering panoramic views of the surrounding landscapes. Nanpanjiang Bridge exemplifies modern engineering’s ability to blend functionality, safety, and aesthetic value in challenging terrains.
Also Read | Daylight saving time 2025: When clocks fall back, health risks, and everything you need to know about
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