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aggregate epoxy flooring
13 Items Found
Водоотталкивающее полиуретановое покрытие Водоэмульсионное эпоксидное покрытие для больниц
Waterborne Polyurethane Topcoat Scope of application It is suitable for the floors of hospitals, instrument rooms, light corrosion industrial workshops, optoelectronic industry workshops and other places. Due to its excellent weather resistance, it can also be used in outdoor places. Performance feature Good chemical resistance and water resistance; Resistant to mineral oil, vegetable oil, petroleum solvents and other petroleum products; The paint fifilm is tough and has good
Εργαστήριο Σκληροποιητής δαπέδου με σιλικέτα λιθίου Ασθενής Σκληροποιητής σκυροδέματος με σιλικέτα λιθίου
Lithium Concrete Hardener Product Data Sheet Product Introduction Lithium Concrete Hardener (also known as Lithium Sealed Hardener, Lithium Densifier) is a water-based liquid hardener composed primarily of nano-scale lithium silicate materials. It penetrates deeply into the concrete surface (penetration depth up to 3-7mm) and chemically reacts with free calcium ions in the concrete to form insoluble calcium silicate hydrate (C-S-H), which fills the capillary pores, creating a
3 mm-40 mm πάχος χρωματισμένο πεζοδρόμιο χρώματα σήμανσης οδικών οδών
Colored Pavement Product Data Sheet Product Introduction Colored pavement is a special functional road surface with color identification features, constructed by adding inorganic pigments to asphalt or concrete mixtures, or using materials such as colored aggregates, transparent resins, and polymer coatings . This technology originated in Europe and America in the 1950s, with China beginning technical exploration in the early 1980s and now widely applied nationwide . Colored
1.06G/Cm3-1.16G/Cm3 Σφραγίδα στερεοποίησης λιθίου για σκονισμένο σκυρόδεμα
Lithium Concrete Hardener Product Data Sheet Lithium Concrete Hardener (also known as Lithium Sealed Hardener, Lithium Densifier) is a water-based liquid hardener composed primarily of nano-scale lithium silicate materials. It penetrates deeply into the concrete surface (penetration depth up to 3-7mm) and chemically reacts with free calcium ions in the concrete to form insoluble calcium silicate hydrate (C-S-H), which fills the capillary pores, creating a dense, hard, dust
