In environments where stringent standards for cleanliness are paramount-such as cleanrooms and laboratories-purification panels serve as a core enclosure material, fulfilling a multitude of functions including thermal insulation, moisture resistance, and anti-static protection. Through a design featuring a composite structure and the selection of specialized core materials, these panels establish a stable environmental barrier for clean spaces, thereby becoming an indispensable functional material in modern industrial architecture.
Purification panels are fabricated by bonding metal facings-such as color-coated steel or stainless steel-to core materials like rock wool or silicon rock using high-strength adhesives. Their core functionality is derived from the inherent properties of these core materials: Rock wool, produced by melting basalt at high temperatures and spinning it into fibers, is classified as Class A non-combustible and possesses an exceptionally low thermal conductivity of just 0.03 W/(m·K); silicon rock, conversely, is synthesized through a chemical reaction between siliceous and calcareous materials, offering a combination of lightweight construction and high structural strength. The composite structure formed by the integration of the metal facings and the core material not only enhances the overall compressive strength (reaching up to 701 MPa) but also effectively blocks moisture penetration-thanks to the impermeability of the metal layers-thereby ensuring superior moisture-resistant performance.
