Novel phenolic resins with improved mechanical and toughness properties

## Abstract **Summary:** In this work, epoxy resin/CaCO~3~ nanocomposites were prepared by in situ and inclusion polymerization. Nanoparticles with a size of 30–40 nm were dispersed efficiently in bisphenol‐A alkaline solution before polymerization and the dispersion could be kept in the resultant

## Abstract The dynamic mechanical properties of blends of phenolic resin (PF) and acrylic rubber (ACM) were investigated. PF had good compatibility with ACM and played an important role in the damping of the ACM/PF blends. With the increase of PF content and molecular weight, the peak of loss fact

The interdependence between the curing conditions, structure, and the mechanical properties of tow neat phenolic resin systems was investigated. Changes of the distribution of the void diameters were characterized by light-an scanning electron microscope analyses. Tensile tests and dynamic mechanica

To improve the ablativity of bismaleimide-type resins, a series of novel allyl compounds containing boron in their molecular structure, designated as ACB, were synthesized and characterized. The copolymers made up of 4,4Ј-bismaleimidodiphenyl methane (BDM) and each ACB were prepared. The properties

Phenol formaldehyde precursors in the form of powder and I mm thick platelets were carbonized in flowing nitrogen up to 1000°C with a heating rate of 2O"/h. Evolution of carbonization products is different for the bulk and powdered samples. The observed differences are caused by secondary reactions