Ceramic fiber blankets, as a high-performance inorganic thermal insulation material, are widely used in high-temperature industries such as metallurgy, petrochemicals, power, and aerospace.
Processing adaptability is an important consideration for the application range of ceramic fiber needle punched blanket, and fiber diameter distribution has a significant impact on this.
In terms of seismic performance, the anchoring depth affects the ability of the rock wool board to work together with the base wall.
In practical applications, the sound absorption performance of a ceramic fiber needle punched blanket needs to meet both high-frequency and low-frequency requirements.
Rock wool board can be used to strengthen thermal bridging by constructing composite structures to address weak points in building structures.
From a materials science perspective, the biosolubility of alkaline earth silicate fibers is closely related to their microstructure.