Thermoviscoelastic Properties of Phenolic Resin/Polymeric Isocyanate Binder Systems

## Abstract The viscoelastic properties of the phenolic resin–polyvinyl butyral system were studied over a wide range of temperature by means of the vibrating reed method, at about 50 cycles/sec., and dielectrically, at 60 cycles/sec. Two mechanical loss peaks due to polyvinyl butyral in the mixed

## Abstract Well‐sized spherical beads of phenolic resin (0.3–1.2 mm) with an extremely high compressive strength (>8 kg/1.0 mm bead) and hardness (>98%) were synthesized via suspension polymerization of phenol and formaldehyde. Barium hydroxide was used as a catalyst (1.68–10.13 wt %) to get large

## Abstract “The use of monoreactive phenol alcohols as models for the general polymerization of phenolic resins (as is commonly suggested) leads to the conclusion that such resins will contain in the earlier stages of condensation a considerable proportion of dibenzyl ether linkages. It may be con

## Abstract An __in situ__ semibatch polymerization process for making phenolic resin/montmorillonite clay nanocomposites is developed. It is found that auxiliary mixing in phenol allows intercalation of the monomer and polymer between montmorillonite clay layers. At 2.7% clay by mass the montmoril