Applicable Building Scenarios
- Crowd-dense Public Buildings: Hospitals, schools, gymnasiums, convention centers and other gathering places, taking into account seismic safety and emergency evacuation requirements.
- High-rise Residential and Office Buildings: High-rise residential buildings and commercial office buildings, resisting horizontal seismic effects and improving the overall structural stability.
- Precious Collections and Critical Facilities: Museums, archives, data centers, precision laboratories and other venues, maximizing the protection of cultural relics, core equipment and important data.
- Industrial and Special Structures: Industrial workshops, large-scale equipment foundations, steel structure connecting corridors, overpasses and other structures, adapting to complex stress characteristics.
- Existing Building Reinforcement and Renovation: Seismic upgrading of old residential communities and existing public buildings, meeting seismic standards without major alterations to the main structure.
Applicable Bridge Scenarios
- Conventional Road and Bridge Projects: Highway/railway continuous girder bridges, rigid frame bridges, urban overpasses, ramp bridges, landscape footbridges and other bridges.
- Special Bridges in High Seismic Intensity Zones: Small and medium-sized cross-sea bridges, cross-river bridges and basin hub bridges in medium and high seismic intensity zones.
- Typical Engineering Cases: Xiamen-Zhangzhou Cross-sea Bridge, urban expressway overpasses in many regions across the country, rail transit supporting bridges and other key projects.
Core Engineering Values
- More Reliable Seismic Performance: Effectively dissipates seismic energy, ensures the main structure is basically in an elastic state, avoids catastrophic damages such as collapse and cracking, and greatly improves seismic redundancy.
- Uninterrupted Emergency Functions: Key buildings such as hospitals, schools and emergency command centers can be put into use immediately after earthquakes, meeting the urgent needs of disaster relief and people's livelihood security.
- More Economical Overall Cost: Optimizes structural stress design, reduces beam and column reinforcement and component cross-sections, and lowers the full-cycle comprehensive cost of construction, operation and maintenance.
- High Indoor and Outdoor Integrity: Greatly reduces seismic impact, avoids wall cracking, finish peeling, equipment toppling and pipeline damage, cutting down post-disaster repair costs.
- More Convenient Reinforcement and Renovation: Seismic reinforcement of old buildings and existing structures requires no major demolition and construction, featuring low construction interference, short construction period and strong adaptability.