Improved Synthetic Route of Incorporation of Nanosilicon Species into Phenol-Formaldehyde Resin and Preparation of Novel ZnAl-Layered Double-Hydroxide Hybrid Phenol-Formaldehyde Resin

Abstract: Hybrid phenol-formaldehyde (PF) resins represent one of the most important niche groups of binding systems for composites. New industrial needs, environmental requirements, and price fluctuations have led to further research on materials with enhanced mechanical and thermal properties. The preparation of novel hybrid materials can be achieved by inclusion of various elements or functional groups in the organic polymer phenolic framework. Herein, we report the synthesis and characterization of a PF-based hybrid… Show more

“…New industrial needs, environmental requirements, and price fluctuations are driving more research into materials with improved mechanical and thermal properties. Therefore, the use of hybrid composite materials, and organic and inorganic reinforcements provide a better performance of phenol formaldehyde resin [11]. For example, by reinforcing coconut fiber, phenol formaldehyde polymeric resin is strengthened and insulation panels can be developed from multilayered fibers [12].…”

Development of Composite Materials from Phenol Formaldehyde Resins and Evaluation of Their Uses

“…New industrial needs, environmental requirements, and price fluctuations are driving more research into materials with improved mechanical and thermal properties. Therefore, the use of hybrid composite materials, and organic and inorganic reinforcements provide a better performance of phenol formaldehyde resin [11]. For example, by reinforcing coconut fiber, phenol formaldehyde polymeric resin is strengthened and insulation panels can be developed from multilayered fibers [12].…”

Development of Composite Materials from Phenol Formaldehyde Resins and Evaluation of Their Uses

Strategic moderation of thermal stability and curing time of lignin-based phenolic resin by incorporating nanoparticles