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After construction, sufficient curing is required to allow the coating to fully harden and form a stable chemical structure.

Applied to the surface of steel structures, intumescent fire retardant coatings expand upon exposure to heat during a fire, forming a porous, dense carbon insulation layer that effectively isolates heat transfer and slows the temperature rise of the steel

To ensure the stability of steel structures in fires, non-expanding fire retardant coatings are widely used. This thick-coated fire retardant coating not only offers excellent fire resistance but also maintains its structural integrity under high-temperat

The construction thickness of intumescent fire retardant coating is a multidimensional variable that affects its fire retardant performance, economy and construction feasibility.

Deep within the bones of modern architecture, non-expansive fire retardant coating, with its silent yet steadfast protection, provides an invisible lifeline for steel structures.

The fire protection mechanism of intumescent fire retardant coating is an intelligent response process based on the synergistic effect of chemical reactions and physical changes. It doesn't simply block flames with a thick barrier.