摘要:
This invention provides 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.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 1,000-100,000 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.
摘要:
A fireproof resin sash that is usable in fire zones or the like is provided, regarding which fireproof performance is easily imparted to a general non-fireproof resin sash without modification of the structure thereof. In a fireproof resin sash 1, vertical frame members 11 and 12 and lateral frame members 13 and 14 that are synthetic resin members having a plurality of hollows along the longitudinal directions thereof are combined with each other to constitute an opening body 10, and vertical rail members 21 and 22 and lateral rail members 23 and 24 are combined with each other to constitute screens 20 that support windowpanes 25. Fireproof sheets 15 and 15A made up of thermally expandable fireproof material are inserted into hollows selected from the hollows of the members so that fireproof surfaces can be formed in the direction along the glass surfaces. Preferably, the thermally expandable fireproof material is formed with material having a coefficient of volumetric expansion that increases 3 to 50 times after the material is being heated for 30 minutes under radiant heat flux of 50 kW/m2 and a stress of 0.05 kgf/cm2 or higher at a breaking point after volumetric expansion measured by a compression tester with an indenter of 0.25 cm. In addition, the fireproof sheets may be inserted together with rolled steel members or wood members into the hollows.
摘要翻译:提供了可用于防火区等的防火树脂窗框,其中对于一般的非防火树脂窗框容易施加耐火性能而不改变其结构。 在防火树脂窗1中,作为具有沿着其纵向方向具有多个中空部的合成树脂构件的垂直框架构件11,12和侧框架构件13,14彼此组合以构成开口主体10,并且垂直导轨 构件21和22以及横向轨道构件23和24彼此组合以构成支撑窗玻璃25的屏幕20。 将由可热膨胀的防火材料制成的防火板15和15A插入到从构件的中空部分中选择的中空部分中,使得能够沿着玻璃表面的方向形成防火表面。 优选地,该热膨胀性防火材料由在50kW / m 2的辐射热通量加热30分钟后体积膨胀系数增加3〜50倍的材料形成, 在通过0.25cm压头的压缩试验机测量的体积膨胀之后的断裂点处,0.05kgf / cm 2以上的应力为0.05kgf / cm 2以上。 此外,防火板可以与轧制钢构件或木构件一起插入中空部。
摘要:
A fire-resistant sheet-like molded article comprising a resin composition and having the relationship between the initial thickness t (mm) and temperature difference ΔT(° C.) between one side and the reverse side after heating of said one side at 500° C. for 1 hour as represented by: ΔT≧0.015t4−0.298t3+1.566t2+30.151t, and having the initial bulk density at 25° C. of 0.8 to 8.0 g/cm3 and the bulk density after 1 hour of heating at 500° C. of 0.05 to 0.5 g/cm3 is provided along with a method of fabricating a fire-resistant structural steel and fire-resistant wall.
摘要翻译:一种耐火片状模制品,其包含树脂组合物,并且具有在初始厚度t(mm)和在一侧和相反侧之后的温度差ΔT(℃)之间的关系之后的关系 在500℃下加热所述一侧1小时,如下所示:<?in-line-formula description =“In-line formula”end =“lead”?> Delta T SUB >> = 0.015t 4-0.298t 3 + 1.566t 2 + 30.151t,&lt;&lt;线内公式描述=“In-line 在25℃下的初始堆积密度为0.8〜8.0g / cm 3的公式“end =”tail“?”,500℃下加热1小时后的体积密度为0.05 与制造耐火结构钢和耐火壁的方法一起提供至0.5g / cm 3。
摘要:
A fire-resistant sheet-like molded article having flame resistance and capable of producing good fire-resisting properties as the result of residues after combustion having sufficient shape-retaining property and, further, having good workability, a fire-resistant laminate for covering structural steels and a fire-resistant structural material for walls in which said molded article is used as well as a method of fabricating a fire-resistant structural steel and a fire-resistant wall. A fire resistant sheet-like molded article comprising a resin composition and having the-relationship between the initial thickness t (mm) and temperature difference &Dgr;T (° C.) between one side and the reverse side after heating of said one side at 500° C. for 1 hour as represented by: &Dgr;T≧0.015t4−0.298t3+1.566t2+30.151t, and having the initial bulk density at 25° C. of 0.8 to 2.0 g/cm3 and the bulk density after 1 hour of heating at 500° C. of 0.05 to 0.5 g/cm3.
摘要:
A fireproof resin sash that is usable in fire zones or the like is provided, regarding which fireproof performance is easily imparted to a general non-fireproof resin sash without modification of the structure thereof.In a fireproof resin sash 1, vertical frame members 11 and 12 and lateral frame members 13 and 14 that are synthetic resin members having a plurality of hollows along the longitudinal directions thereof are combined with each other to constitute an opening body 10, and vertical rail members 21 and 22 and lateral rail members 23 and 24 are combined with each other to constitute screens 20 that support windowpanes 25. Fireproof sheets 15 and 15A made up of thermally expandable fireproof material are inserted into hollows selected from the hollows of the members so that fireproof surfaces can be formed in the direction along the glass surfaces. Preferably, the thermally expandable fireproof material is formed with material having a coefficient of volumetric expansion that increases 3 to 50 times after the material is being heated for 30 minutes under radiant heat flux of 50 kW/m2 and a stress of 0.05 kgf/cm2 or higher at a breaking point after volumetric expansion measured by a compression tester with an indenter of 0.25 cm2. In addition, the fireproof sheets may be inserted together with rolled steel members or wood members into the hollows.
摘要翻译:提供了可用于防火区等的防火树脂窗框,其中对于一般的非防火树脂窗框容易施加耐火性能而不改变其结构。 在防火树脂窗1中,作为具有沿着其纵向方向具有多个中空部的合成树脂构件的垂直框架构件11,12和侧框架构件13,14彼此组合以构成开口主体10,并且垂直导轨 构件21和22以及横向轨道构件23和24彼此组合以构成支撑窗玻璃25的窗口20.由可热膨胀的防火材料制成的防火板15和15A插入从构件的中空部分中选择的中空部分中,使得 可以沿着玻璃表面的方向形成防火表面。 优选地,可热膨胀的耐火材料由在50kW / m 2的辐射热通量和0.05kgf / cm 2的应力加热30分钟之后具有体积膨胀系数增加3至50倍的材料形成,或 在通过0.25cm 2的压头的压缩试验机测量的体积膨胀之后的断裂点处较高。 此外,防火板可以与轧制钢构件或木构件一起插入中空部。
摘要:
The present invention is a fire-resistant paint containing an epoxy resin, a hardener, and an inorganic filler wherein {circle around (1)} for the total of 100 weight parts of the epoxy resin and the hardener, {circle around (2)} 200-500 weight parts of the inorganic filler, chosen from a group consisting of neutralized thermally expandable graphite, metal carbonate, and a hydrated inorganic compound is contained; {circle around (3)} for the inorganic filler, at least 15-400 weight parts of neutralized thermally expandable graphite is contained; and {circle around (4)} the viscosity of the fire-resistant paint is 1-1,000 ps as measured by a B-type viscometer. The fire-resistant paint of the present invention has particularly remarkable fire resistance, and can be used in a wide range of applications.