本研究以市售鋁蜂巢板、矽酸鈣板、陶瓷棉板及鐵板四種不同型式建築用板材，搭配組合成為建築用捲門葉片為開發研究主軸，利用標準火災試驗，模擬出建築用捲門葉片實際的火災受熱行為，依據CNS 14803規範的精神與衍生的意義，探討建築用板材經不同型式的搭配設計後，於高溫時的阻熱性能與溫度分佈情形，藉由研究結果來評估建築用阻熱性捲門實際應用在火場及建築物防火區劃之可行性。經試驗結果顯示，鐵板、矽酸鈣板及陶瓷棉板的搭配組合設計，良好的隔熱效能，可大幅降低非受火側之溫度，未來將可實際應用在建築物之防火區劃設計上。

This study focuses on the application of four types of building materials: aluminum honeycomb panel, calcium silicate board, ceramic wool board, and iron board, in the development of rolling shutter panels. The standard fire resistance test is employed to simulate the actual thermal behavior of rolling shutter panels in a fire; the regulations of CNS 14803 and its extended application are followed to delve into how varied designs of rolling shutter panels composed of different building materials will lead to varied heat insulation capacity and thermal distribution. The study result will be used to evaluate the practicability of heat-insulating rolling shutters in buildings.The experiment’s result shows that panels made of iron panel, calcium silicate board, and ceramic wool board possess excellent heat-insulating effect and can greatly lower radiation heat; they therefore can be applied in the fireproof space design of buildings.

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