Fracture energy and strength of polymer impregnated cement

The authors feel that the sample geometry and notch depth selected were adequate for the experimental purposes, The sample geometry is consistent with that of other work on ceramic materials, glasses, graphites, and rigid polymers (2,3,4) and is consistent with the analysis of Gross and Srawley (5).

Impreg~.ated cement p~stes were prepared from fine cement of ~laine area 6~,O m /kg using various initial W/C ratios in the range 0.25-~.70, cured for various durations, an@ by using styrene or methyl methacrylate, which were polymerized in situ by thermal treatment. The polymer effect on compressiv

Cured precast portland cement mortars were impregnated with the monomer-initiator mixture (mmA or styrene or both and AIBN or benzoyl peroxide), polymerized, and cured and the change in compressive strength, and, in some cases, the change in tensile strength were studied. The effect of impregnation

## Abstract Admixing of several antibiotic powders which were insoluble in methyl methacrylate did not decrease the compressive and diametral tensile strengths of two acrylic bone cements when tested after setting for 1 day and after leaching 40 days in water at 37°C. When antibiotics were added as