This study investigates the compatibility between cellular concrete (foamed concrete) and natural rice husk to develop high-performance and sustainable sealing materials. Through a bibliographical review we identified challenges in incorporating vegetable fibers into cementitious matrices due to problems related to durability. Prismatic samples of a Reference mixture (foamed concrete) and a Composite with foamed concrete and natural rice husk underwent chemical treatments with acidic and basic solutions to simulate long-term durability. Results show that even after complete organic matter degradation, the composite maintains adequate mechanical performance for sealing walls. Microstructural analyses, including scanning electron microscopy, x-ray diffraction, x-ray fluorescence, and energy dispersive spectroscopy, revealed that silica in the rice husk significantly contributes to axial compression strength by forming C–S–H. The degradation of natural polymers results in the formation of calcium carbonate and calcium sulfate dihydrate, mitigating strength loss. This study proves that the composites with natural rice husk and foamed concrete are a viable and durable solution, provided it does not include metallic materials susceptible to corrosion in composition.