Polymerization kinetics, glass transition temperature and creep of acrylic bone cements

## 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 shown that preheating the femoral stem prior to insertion minimizes interfacial porosity at the stem-cement interface. In this study, the effects of methylmethacrylate monomer temperature prior to mixing on the properties of stem-cement interface and cement polymerization were evaluated

## Abstract It has been suggested in the literature that a lower polymerization rate of an acrylic bone cement is favorable for the __in vivo__ longevity of a cemented arthroplasty. The present work was a study of the influence of three changes in the composition of an acrylic bone cement (when tak

The polymerization reaction of standard surgical Simplex ᭨ -P radiopaque bone cement was investigated by differential scanning calorimetry to determine the influence of hydroxyethyl methacrylate (HEMA) and ethylene glycol dimethacrylate (EGDMA) on the polymerization reaction. From the kinetic analys