Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
FIRE-RESISTANCE PERFORMANCE ESTIMATION METHOD
To provide a fire-resistance performance estimation method of a wood steel hybrid member capable of simply estimating the fire-resistance performance of the wood steel hybrid member.SOLUTION: A method for estimating the fire-resistant performance of a wood steel hybrid member 10 including a steel material 12 and a wood covering material 14 for fire-resistant covering of the steel material 12, the method comprising: a pseudo member temperature rise coefficient is calculated from the shape and cross-sectional dimensions of the steel material 12 and the tree species and coating thickness of the woody coating material 14, and the fire resistance performance of the wood steel hybrid member 10 is estimated based on the calculated pseudo member temperature rise coefficient.SELECTED DRAWING: Figure 1
【課題】木鋼ハイブリッド部材の耐火性能を簡易的に推定することができる木鋼ハイブリッド部材の耐火性能推定方法を提供する。【解決手段】鋼材12と、この鋼材12を耐火被覆する木質被覆材14とを備える木鋼ハイブリッド部材10の耐火性能を推定する方法であって、鋼材12の形状および断面寸法と、木質被覆材14の樹種および被覆厚さから、疑似的な部材温度上昇係数を算出し、算出した疑似的な部材温度上昇係数に基づいて、木鋼ハイブリッド部材10の耐火性能を推定するようにする。【選択図】図1
FIRE-RESISTANCE PERFORMANCE ESTIMATION METHOD
To provide a fire-resistance performance estimation method of a wood steel hybrid member capable of simply estimating the fire-resistance performance of the wood steel hybrid member.SOLUTION: A method for estimating the fire-resistant performance of a wood steel hybrid member 10 including a steel material 12 and a wood covering material 14 for fire-resistant covering of the steel material 12, the method comprising: a pseudo member temperature rise coefficient is calculated from the shape and cross-sectional dimensions of the steel material 12 and the tree species and coating thickness of the woody coating material 14, and the fire resistance performance of the wood steel hybrid member 10 is estimated based on the calculated pseudo member temperature rise coefficient.SELECTED DRAWING: Figure 1
【課題】木鋼ハイブリッド部材の耐火性能を簡易的に推定することができる木鋼ハイブリッド部材の耐火性能推定方法を提供する。【解決手段】鋼材12と、この鋼材12を耐火被覆する木質被覆材14とを備える木鋼ハイブリッド部材10の耐火性能を推定する方法であって、鋼材12の形状および断面寸法と、木質被覆材14の樹種および被覆厚さから、疑似的な部材温度上昇係数を算出し、算出した疑似的な部材温度上昇係数に基づいて、木鋼ハイブリッド部材10の耐火性能を推定するようにする。【選択図】図1
FIRE-RESISTANCE PERFORMANCE ESTIMATION METHOD
耐火性能推定方法
ENDO TOMOKI (Autor:in) / MORITA TAKESHI (Autor:in)
19.12.2022
Patent
Elektronische Ressource
Japanisch
IPC:
E04B
Allgemeine Baukonstruktionen
,
GENERAL BUILDING CONSTRUCTIONS
Performance Based Design for Fire Resistance
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