Dynamic creep behavior of acrylic bone cement

## Abstract The creep deformation of two acrylic bone cements, Palacos® R+G and SmartSet® GHV, was investigated for different physical aging times ranging from 45 min to 2 ½ years. The experiments were carried out in a three‐point‐bending set‐up in 37°C Ringer's solution applying 10 MPa or 25 MPa c

It has been proposed that creep of acrylic bone bone cement. ''Delayed'' injection time of acrylic bone cement cement may contribute to loosening of cemented total joint increased creep by approximately 5 times in 24 h compared replacements. If true, it is important that factors affecting to specime

Dynamic mechanical analysis (DMA) was used to characterize the properties of acrylic bone cement with the addition of tricalcium phosphate (TCP), hydroxyethyl methacrylate (HEMA), and ethylene glycol dimethacrylate (EGDMA). The glass transition temperature of acrylic bone cement is ú100ЊC; the cemen

Compressive creep tests were performed on five commercially available acrylic bone cements under conditions simulating in vivo usage. Measured creep strains are quite large, generally exceeding elastic strains. Large variations in creep response were noted among the various cements, with a carbon-re

Compressive creep testing of cylindrical specimens machined from two commercial self-polymerizing acrylic bone cements demonstrated measurable creep strains with higher creep strains for the hand-mixed cement specimens compared to vacuum-mixed cement ones. The average creep strains of hand-mixed cem

## Abstract Self‐curing poweder‐liquid admixed acrylic systems are used for internal fixation of total hip and total knee prostheses. Gel permeation chromatography revealed that the polymer chain length distributions of set cements were basically unaffected by their curing pressures. However, a dec