
PROTECTOR
ULTRA-CONCENTRATED, LONG-LASTING ACTIVE MINERAL PROTECTIVE SEALANT
NON-FILM-FORMING, DENSIFYING MINERAL PROTECTION
SILUM Protector is an ultra-concentrated mineral densifying sealant designed to strengthen surfaces and improve their resistance to wear in high-traffic environments.
Unlike conventional acrylic finishes, the Protector acts primarily within the microporosity of the surface rather than creating a thick film-forming layer that may flake off or require frequent chemical stripping.
Its technology helps to stabilize the surface, reduce soiling and extend the life of floors while decreasing the need for heavy maintenance.
The Protector is designed to be used as part of the complete SILUM system, including the Regenerator, the Hybrid and the TopCoat.
The system also contributes to creating an environment unfavorable to proliferation
bacteria through the maintenance of an active alkaline environment .
MAIN ADVANTAGES
Works in synergy with the SILUM system
Strengthens and densifies the surface
Reduces premature wear
Significant reduction in chemical stripping
Reduction of black marks and traffic traces
Reduction of fouling
Generates very little dust during polishing
Excellent for hard surfaces like concrete,
terrazzo and certain compatible ceramics
Ideal for satin and matte finishes
Compatible with high-performance mechanical maintenance
Helps create an environment
unfavorable to the proliferation of bacteria
Less storage space required
thanks to its high concentration
Designed for demanding commercial environments
Concentrated system with low operational impact
TARGETED APPLICATIONS
Retail stores
Grocery stores
Public institutions
Schools and universities
Health centers
Commercial warehouses
VCT surfaces, concrete, terrazzo and compatible surfaces

SILUM SURFACE PROTECTION SYSTEM
Less work. Less waste. More performance.
System designed for commercial, institutional and high-traffic environments. Professional use only.
PRODUCT POSITIONING
The Protector represents a modern approach to surface protection based on densification and mineral stabilization rather than the accumulation of conventional layers.
It forms the foundation of the SILUM system.



