Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Vitrified porcelain plate composite stalk plate being not eaten by insect ants, having heat preservation and sound insulation and being non-combustible at temperature of thousand DEG C
A conventional stainless steel composite plate is filled with foamed plastics, and has the disadvantages of being afraid of fire and low in strength; the foamed plastics are burnt in flames, and a wrapped stainless steel plate is destroyed by generated gas. A vitrified porcelain plate composite stalk plate is prepared from a vitrified porcelain plate and a non-combustible stalk plate; sodium silicate is a high-temperature-resistant flame retardant, thereby making corn or sorghum stalks non-combustible at the temperature of thousand DEG C; the non-combustible stalk plate has slight alkalinity to prevent insect ants from eating and restrain the growth of fungi; the non-combustible stalk plate is of a multi-layer hollow structure, thereby having quite good heat-preservation sound-insulation performance; the sodium silicate makes the stalk plate hardened, and thus the stalk plate has hard quality like wood after drying, and is hard and durable; the vitrified porcelain plate is not rusted; therefore, the vitrified porcelain plate composite stalk plate has more than one hundred years of service life. Carbon molecules of the stalk plate and silicon molecules of the sodium silicate undergo a chemical reaction in the flames to generate silicon carbide. The silicon carbide is a hard material resisting to high temperature of more than one thousand DEG C, so when a fire disaster breaks out, the vitrified porcelain plate composite stalk plate has the stiffness with little change, and can prevent the fire disaster from extending. In conclusion, the vitrified porcelain plate composite stalk plate is a best building material for building factory building makeshift houses.
Vitrified porcelain plate composite stalk plate being not eaten by insect ants, having heat preservation and sound insulation and being non-combustible at temperature of thousand DEG C
A conventional stainless steel composite plate is filled with foamed plastics, and has the disadvantages of being afraid of fire and low in strength; the foamed plastics are burnt in flames, and a wrapped stainless steel plate is destroyed by generated gas. A vitrified porcelain plate composite stalk plate is prepared from a vitrified porcelain plate and a non-combustible stalk plate; sodium silicate is a high-temperature-resistant flame retardant, thereby making corn or sorghum stalks non-combustible at the temperature of thousand DEG C; the non-combustible stalk plate has slight alkalinity to prevent insect ants from eating and restrain the growth of fungi; the non-combustible stalk plate is of a multi-layer hollow structure, thereby having quite good heat-preservation sound-insulation performance; the sodium silicate makes the stalk plate hardened, and thus the stalk plate has hard quality like wood after drying, and is hard and durable; the vitrified porcelain plate is not rusted; therefore, the vitrified porcelain plate composite stalk plate has more than one hundred years of service life. Carbon molecules of the stalk plate and silicon molecules of the sodium silicate undergo a chemical reaction in the flames to generate silicon carbide. The silicon carbide is a hard material resisting to high temperature of more than one thousand DEG C, so when a fire disaster breaks out, the vitrified porcelain plate composite stalk plate has the stiffness with little change, and can prevent the fire disaster from extending. In conclusion, the vitrified porcelain plate composite stalk plate is a best building material for building factory building makeshift houses.
Vitrified porcelain plate composite stalk plate being not eaten by insect ants, having heat preservation and sound insulation and being non-combustible at temperature of thousand DEG C
LIAO SHUHAN (Autor:in)
27.01.2016
Patent
Elektronische Ressource
Englisch
| Europäisches Patentamt | 2016
| Europäisches Patentamt | 2016
| Europäisches Patentamt | 2016
| Europäisches Patentamt | 2016
| Europäisches Patentamt | 2016