The effect of resin formulation on the degree of conversion and mechanical properties of dental restorative resins

AASTRACTS 331 ment. The electron microscope (both in the scanning and transmission modes) was used to examine the topography of both wet (60% HNOs, 118°C) and dry oxidized (air, 700°C) fibers as well as fracture surfaces of composites made with treated and untreated fibers. The flexural strength of

## Abstract A series of allyl‐functional novolac (AN) resins with various allylation degree, from 32.4 to 114.6%, were synthesized and blended reactively with 4,4′‐bismaleimide biphenyl methane (BMI) at a weight ratio of 2.50 : 1 to get BMI‐modified and allyl‐functional novolac (BMAN) resins. Struc

The effect of salicylic acid and its derivatives on the properties of phenolic resin composites was evaluated. The composites were reinforced with aluminum oxide particles in both solid and hollow forms. Differential scanning calorimetry studies have shown that the reaction rate of phenolic resin wa

Phenolic resin is carbonized in flowing helium up to 110OC". The mechanical properties of carbonized products are closely related to the microstructure formed during carbonization. The microstructure of carbonized products is very porous. This porous structure is determined by the rate of gas evolut