The use of composite resin materials for posterior tooth restorations is increasing. This increase is attributed primarily to a demand for improved esthetics. However, poor material properties limited the success of composite restorations in posterior teeth. Microleakage, fractures within the body of the restorations, marginal ditching, protruding, and imperfect wear resistance are reported as being the most common causes of failure in posterior composites. Fluoride release from restorative materials may prevent development of secondary carious lesions at the restoration tooth interface and can develop remineralization of enamel or decalcified dentin, so long as physical and mechanical properties are not adversely affected. The object of this study was to investigate a new composite resin with good bonding between resin matrix and inorganic filler. Besides, It is desirable that restorative material is enough fluoride release for immediate and long-term caries protection. Montmorillonite is a layered aluminosilicate of the 2:1 type. Crystal structure consists of layers made up of two tetrahedrally coordinated silicon atoms fused to an edge-shared octahedral sheet of aluminum. The organofunctionalization of montmorillonite can be made after the intercalation of small polar molecules, such as N-methyl formamide (NMF). A montmorillonite/acrylamide intercalation compound was synthesized by guest displacement reaction of a montmorillonite/NMF intercalation compound. It is desirable that montmorillonite/acrylamide compound could graft on resin matrix and improve the composite resin mechanical properties and wear resistant. We use hydrofluoric acid via the fluorination method to improve the fluoride release and recharge ability of montmorillonite. We can prepare the anti-caries of fluoride-contaning dental restorative materials by hydrofluoric acid modified MMT intercalation compounds that contained fluoride.