The strength of acrylic bone cements and acrylic cement-stainless steel interfaces

## 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

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 Eight acrylic bone cement products were examined according to the methods set out in three published performance standards, viz., Australian Standard 2265 Part 1, 1979, ASTM specification F451‐76, and the ISO specification 5833/1, 1979. In addition, chemical analyses were carried out by

## 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

Acrylic bone cement occupies a distinctive place in the hierarchy of synthetic biomaterials, because it is the only material currently used for anchoring the prosthesis to the contiguous bone in a cemented arthroplasty. However, the cement is not without its drawbacks. The main one is the role that