Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
HEAT-RESISTANT MEMBER, FIREPROOF STRUCTURE, AND CONSTRUCTION METHOD FOR FIREPROOF STRUCTURE
PROBLEM TO BE SOLVED: To provide a heat-resistant member and the like capable of reliably securing fire resistance efficiency by a small amount of thermal expansion material.SOLUTION: A heat-resistant member 1 is predominantly composed of a coating member 3, a thermal expansion member 7, a holding member 9 and the like. The holding member 9 is a member with fire resistance and flexibility, for example, an inorganic fiber blanket. The thermal expansion member 7 is superposed on one surface of the holding member 9. The thermal expansion member 7 is narrower than the holding member 9. Thus, regions, which are not provided with the thermal expansion member 7, are formed near both width-direction ends of the heat-resistant member 1, respectively. The holding member 9 and the thermal expansion member 7 are coated with the coating member 3.
【課題】 少ない量の熱膨張材によって確実に耐火性能を確保することが可能な耐火部材等を提供する。【解決手段】 耐火部材1は、主に被覆部材3、熱膨張部材7、保持部材9等から構成される。保持部材9は、耐火性と可撓性を有する部材であり、例えば、無機繊維系のブランケットである。保持部材9の一方の面には、熱膨張部材7が積層される。熱膨張部材7の幅は、保持部材9の幅よりも狭い。したがって、耐火部材1の幅方向の両端部近傍には、熱膨張部材7が設けられない部位が形成される。保持部材9と熱膨張部材7は、被覆部材3によって被覆される。【選択図】図2
HEAT-RESISTANT MEMBER, FIREPROOF STRUCTURE, AND CONSTRUCTION METHOD FOR FIREPROOF STRUCTURE
PROBLEM TO BE SOLVED: To provide a heat-resistant member and the like capable of reliably securing fire resistance efficiency by a small amount of thermal expansion material.SOLUTION: A heat-resistant member 1 is predominantly composed of a coating member 3, a thermal expansion member 7, a holding member 9 and the like. The holding member 9 is a member with fire resistance and flexibility, for example, an inorganic fiber blanket. The thermal expansion member 7 is superposed on one surface of the holding member 9. The thermal expansion member 7 is narrower than the holding member 9. Thus, regions, which are not provided with the thermal expansion member 7, are formed near both width-direction ends of the heat-resistant member 1, respectively. The holding member 9 and the thermal expansion member 7 are coated with the coating member 3.
【課題】 少ない量の熱膨張材によって確実に耐火性能を確保することが可能な耐火部材等を提供する。【解決手段】 耐火部材1は、主に被覆部材3、熱膨張部材7、保持部材9等から構成される。保持部材9は、耐火性と可撓性を有する部材であり、例えば、無機繊維系のブランケットである。保持部材9の一方の面には、熱膨張部材7が積層される。熱膨張部材7の幅は、保持部材9の幅よりも狭い。したがって、耐火部材1の幅方向の両端部近傍には、熱膨張部材7が設けられない部位が形成される。保持部材9と熱膨張部材7は、被覆部材3によって被覆される。【選択図】図2
HEAT-RESISTANT MEMBER, FIREPROOF STRUCTURE, AND CONSTRUCTION METHOD FOR FIREPROOF STRUCTURE
耐火部材、防火構造体および防火構造体の施工方法
ARAKAWA DAISUKE (Autor:in)
03.12.2015
Patent
Elektronische Ressource
Japanisch
IPC:
E04B
Allgemeine Baukonstruktionen
,
GENERAL BUILDING CONSTRUCTIONS
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