Inorganic thermal insulation mortar (vitrified microbead fireproof thermal insulation mortar, composite silicate thermal insulation mortar) is a new thermal insulation and energy-saving mortar material used for painting internal and external walls of buildings. It is based on inorganic Vitrified microbeads (which can also be replaced by closed-cell expanded perlite) are used as lightweight aggregate, and dry mortar composed of cementitious materials, anti-cracking additives and other fillers is added. It has the characteristics of energy saving, waste utilization, thermal insulation, fire protection and anti-freeze, aging resistance and low price, and has a wide range of market demand.
Inorganic thermal insulation mortar has temperature stability and chemical stability: the inorganic thermal insulation mortar material insulation system is made of pure inorganic materials. It is acid and alkali resistant, corrosion resistant, does not crack or fall off, has high stability, does not have aging problems, and has the same lifespan as the building wall. Simple construction and low overall cost: the inorganic thermal insulation mortar material insulation system can be directly applied to the rough wall, and its construction method is the same as the cement mortar leveling layer. The product uses machinery and simple tools. The construction is convenient, and compared with other insulation systems, it has the obvious advantages of short construction period and easy quality control. Wide range of applications to prevent the occurrence of hot and cold bridges: the inorganic thermal insulation mortar material insulation system is suitable for the insulation of various wall base materials and various complex-shaped walls. Fully enclosed, no seams, no cavities, no hot and cold bridges. In addition to external insulation of exterior walls, it can also be used for internal insulation of exterior walls, or simultaneous insulation of exterior walls both inside and outside, as well as roof insulation and geothermal insulation layers, providing certain flexibility in the design of energy-saving systems.
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