The core technical highlight of this product lies in the gradient-sized ceramic particle filling design, which significantly improves the compactness of the coating and reduces internal gaps, greatly enhancing the overall wear resistance. The epoxy resin matrix is modified with flexible additives to balance high bonding strength and impact resistance, avoiding brittle cracking under long-term vibration and impact. It has excellent acid and alkali corrosion resistance, suitable for harsh industrial environments, and the two-component formula is easy to mix and construct, with a clear mixing ratio to reduce construction errors. The cured coating has high hardness and a smooth surface, which can reduce material adhesion and further improve wear resistance.
The density of the fully cured coating is 2.3g/cm³, with a viscosity of 8000-10000mPa·s at 25℃ before curing. The operating time at 25℃ is 40-60 minutes, after which the adhesive will gradually set. The tensile shear strength between steel substrates is up to 8MPa, and the compressive strength reaches 120MPa, meeting the load-bearing requirements of heavy-duty industrial scenarios. The thickness of the constructed coating can be adjusted from 2mm to 20mm according to actual wear conditions, and it can be constructed in multiple layers for thicker protective requirements. It has excellent water resistance, with no peeling or delamination after immersion in water for 30 days.
This product is mainly applicable to the wear protection and repair of industrial facilities in mining, metallurgy and bulk material transportation industries, including mine chutes, belt conveyor linings, hopper inner walls, blast furnace slag trenches, concentrator wear-resistant components, coal mine scraper conveyor linings and other high-wear parts. It can also be used for repairing wear and corrosion of metal and concrete structures in ports and wharfs, providing long-term durable protective layers for various industrial equipment and structures.
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