Mechanical Characterization of Nanocomposite Joints Based on Biomedical Grade Polyethylene under Cyclical Loads

Polymers
Annamaria ViscoRoberto Montanini

Abstract

Polymeric joints, made of biomedical polyethylene (UHMWPE) nanocomposite sheets, were welded with a diode laser. Since polyethylene does not absorb laser light, nanocomposites were prepared containing different percentages by weight of titanium dioxide as it is a laser absorbent. The joints were first analyzed with static mechanical tests to establish the best percentage weight content of filler that had the best mechanical response. Then, the nanocomposites containing 1 wt% titanium dioxide were selected (white color) to be subjected to fatigue tests. The experimental results were also compared with those obtained on UMMWPE with a different laser light absorbent nano filler (carbon, with greater laser absorbing power, gray in color), already studied by our research team. The results showed that the two types of joints had an appreciable resistance to fatigue, depending on the various loads imposed. Therefore, they can be chosen in different applications of UHMWPE, depending on the stresses imposed during their use.

References

Jun 24, 2010·Medical Engineering & Physics·Negin AmanatDavid R McKenzie
Sep 9, 2016·Applied Optics·Roberto MontaniniGaetano Squadrito
Jul 18, 2018·Journal of the Mechanical Behavior of Biomedical Materials·Annamaria ViscoRoberto Montanini
Aug 25, 2019·Polymers·António B PereiraJoão Quintão

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Scanning Electron Microscope

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