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A platform for research: civil engineering, architecture and urbanism
Fire-resistant reinforcement structure, fire-resistant reinforcement architectural member, fire-resistant reinforcement method for architectural member
[Problem] To provide a fire-resistant reinforcement structure which facilitates work for improving fire resistance of architectural members such as pipes, a door, and a sash, a fire-resistant reinforcement architectural member, and a fire-resistant reinforcement method for an architectural member. [Solution] A fire-resistant reinforcement structure is formed by pouring a thermally expandable fire-resistant material into a gap in and/or the interior of an architectural member, and characterized in that the viscosity of the thermally expandable heat-resistant material at 25°C before the thermally expandable fire-resistant material is poured into the gap in and/or the interior of the architectural member is in the range of 1000-100000 mPa·s, and the thermally expandable fire-resistant material loses fluidity at 25°C after being poured into the gap in and/or the interior of the architectural member.
Fire-resistant reinforcement structure, fire-resistant reinforcement architectural member, fire-resistant reinforcement method for architectural member
[Problem] To provide a fire-resistant reinforcement structure which facilitates work for improving fire resistance of architectural members such as pipes, a door, and a sash, a fire-resistant reinforcement architectural member, and a fire-resistant reinforcement method for an architectural member. [Solution] A fire-resistant reinforcement structure is formed by pouring a thermally expandable fire-resistant material into a gap in and/or the interior of an architectural member, and characterized in that the viscosity of the thermally expandable heat-resistant material at 25°C before the thermally expandable fire-resistant material is poured into the gap in and/or the interior of the architectural member is in the range of 1000-100000 mPa·s, and the thermally expandable fire-resistant material loses fluidity at 25°C after being poured into the gap in and/or the interior of the architectural member.
Fire-resistant reinforcement structure, fire-resistant reinforcement architectural member, fire-resistant reinforcement method for architectural member
MIYATA SHINGO (author) / OOTSUKA KENJI (author) / TONO MASAKI (author)
2016-01-28
Patent
Electronic Resource
English
IPC:
E04B
Allgemeine Baukonstruktionen
,
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