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Specific Architectural Design of an Earthquake Disaster Management Multi-Purpose Complex (EDMMC)
Architectural Design
Architectural Consideration-Seismic Resistant Finishing Architectural Consideration-Smart Sensors
PTFE as Yard Moveable Roof
• PTFE: Polytetrafluoroethylene Relief Team
• Lightweight but Extremely Strong
• ultimate tensile strength of 500,000 PSI
• Using in Different Climate Earthquake
• Sound Reduction
Alert Center
GFRC as Finishing
• GRFC: Glass Fiber Reinforced Concrete Seismic
• Lightweight but Extremely Strong Sensors
• Fire Resistance
• Energy Efficiency
• Sound Reduction
[1] First Felt Wave
Damaging Wave
Fault EDMMC Centers
ETFE as Gymnasium Roof & Windows
Epicenter • S-Wave • P-Wave
• ETFE: Ethylene-Tetra-Fluor-Ethylene
• lightweight material
• ~ 1% of the Weight of Glass Disaster warnings sensors and surveillance systems are considered for the EDMMC.
• Using in Large-Span Roofing, skylights, -Disaster warnings sensors can reduce the operation time by up to 15 s, which is long enough for people to
windows get under sturdy furniture, or to evacuate from the third floor to the first floor, or to run more than 100 m.
• Transmitting up to 95% of light [2] -Opening doors and windows and cutting off power lines and gas valves. [3]
1-Wortman, M. (2008). TECHNICAL ANALYSIS, EIFS Panels vs. GFRC Panels.
2-SOLARNEXT. (2008). Retrieved from http://www.solarnext.eu
3-Chun-Yen Lin, Edward T.-H Chu, Lun-Wei Ku, Jane W. S. Liu. (2014). Active Disaster Response System for a Smart Building. sensors.
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