Physical aging and the creep behavior of acrylic bone cements

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

## Abstract An investigation was conducted to determine the general physical characteristics of self‐curing acrylic resin systems in terms of their potential utilization in total hip arthroplasty. Exothermic temperature, working and setting times were monitored with thermocouples placed in acrylic

## Abstract Acrylic bone cement is the primary load‐bearing material used for the attachment of orthopedic devices to adjoining bone. Degradation of acrylic‐based cements __in vivo__ results in a loss of structural integrity of the bone‐cement‐prosthesis interface and limits the longevity of cement

## Abstract Room temperature compression creep and recovery tests have been performed using samples of pure poly(methyl methacrylate) (PMMA), three commercially available poly(methyl methacrylate) cements, and several experimental cements. From these tests the influence of density, mixing procedure

The formation of acrylic bone cements upon heating was investigated by differential scanning calorimetry (DSC). The effects of the contents of initiators, accelerator, biocompatibilizer, and crosslinking agents on the rate and the heat of polymerization during DSC heating were studied. The rate and

In all acrylic bone cement formulations in clinical use today, radiopacity is provided by micron-sized particles (typical mean diameter of between about 1 and 2 microm) of either BaSO(4) or ZrO(2). However, a number of research reports have highlighted the fact that these particles have deleterious