The long-term use temperature of the real gold plate machine is -250℃~150℃, and it is not combustible in case of fire. In the high temperature environment, the real gold plate equipment does not melt, does not soften, and only the surface is carbonized. The thermal conductivity of non-combustible polystyrene board assembly line equipment is only about 0.023W/m.k, and the thermal insulation performance is very good. Its outstanding features are flame retardant, low smoke, and high temperature disparity resistance. It can be poured and foamed on site, and can also be machined, and can be made into plates, tube shells and various special-shaped products. It overcomes the shortcomings of the original foam plastic insulation materials such as flammability, smoke, and heat deformation, and retains the original foam plastic insulation materials such as light weight and convenient construction. Non-combustible polystyrene board assembly line equipment has rich sources of raw materials, low price, simple production and processing, and wide range of products. It is suitable for large-scale cold storage, storage tanks, ships and various insulation pipes and construction industries.
If it is used in factories, mines and mechanical equipment with strict fire protection requirements, it can better highlight its characteristics of flame retardant, low smoke and high temperature resistance. Such as: the insulation of ships, warships, trains, and tanks, as well as the sale of real gold plate production equipment for papermaking, chemical industry, and pharmaceuticals, and A-level automatic real gold plate production line equipment.
Technical features: The technology of modified polystyrene board for fire protection and heat preservation applies cross-domain and interdisciplinary polymer technology, completely abandons the original methods of molecular modification of EPS and other materials or adding flame retardants, and introduces a new concept of fire protection . Organic macromolecules drive inorganic molecules to move to the edge during the process of thermal expansion, and finally form a honeycomb compartment, so that each particle of organic macromolecules forms a relatively independent fireproof individual, thus effectively blocking heat conduction and flame transmission , to achieve the “quasi non-combustible” effect. It is completely different from the traditional polystyrene board technical thinking and direction, and adopts a new concept of fire-proof isolation and partitioned particles. Compared with traditional organic thermal insulation materials, this technology retains the physical properties of the original organic macromolecules and improves the fire protection level, which fully meets the current requirements of my country’s A-level fire protection standards for external thermal insulation materials for building exterior walls.