4446091 Carbon fiber-reinforced cement mould

## Abstract A tougher, more fatigue‐resistant bone cement consisting of short, highmodulus carbon fibers dispersed randomly in normal poly(methyl methacrylate) bone cement has been developed. Fatigue and impact tests are reported that demonstrate the superior fracture resistance and prolonged load‐

The effect of carbon fibers on the tensile strength of cement paste matrix was experimentally and analytically investigated. The tensile strength values were obtained using the cementitious composites axial tensile technique (CCATr) [ 1,2]. The addition of 1, 1.5, 2, and 3 volume percent ofpolyacry

Self-monitoring of slight fatigue damage was demonstrated in cement mortar containing short carbon fibers (0.24 vol.%), as damage (occurring in the first < 10% of the tensile or compressive fatigue life) caused the volume electrical resistivity to decrease irreversibly by up to 2%. The greater the s

Despite their high cost, carbon fibres are an attractive choice as reinforcement for reactive matrices such as cement because of their chemical inertness at ambient temperatures. Since these fibres have very high specific strength and elastic modulus, only a small volume per cent of the fibre is req