Depth-dependent strain fields of articular cartilage under rolling load by the optimized digital image correlation technique

https://doi.org/10.1016/j.msec.2013.01.054Get rights and content

Abstract

It is significant to investigate the depth-dependent mechanical behaviors of articular cartilage under rolling load since considerable rolling occurs for cartilage joint in activities of daily living. In this study, the rolling experiments of articular cartilage were conducted by applying an optimized digital image correlation (DIC) technique for the first time and the depth-dependent normal strain and shear strain of cartilage were analyzed. It is found that the normal strain and shear strain values of different layers increase firstly and then decrease with rolling time, and they increase with increasing compressive strains. The normal strain and shear strain values decrease along cartilage depth with constant compressive strain. The normal strain values of different normalized depth decrease with increasing rolling rates. The shear strain values of superficial layer and middle layer decrease; however there are no major changes for the shear strain values of deep layer with increasing rolling rates. The normal strain values with different rolling time increase with increasing rolling numbers and the 30.6% increase in initial normal strain is observed from 1st to 99th cycle. The fitting relationship of the normal strain and normalized depth was obtained considering the effects of compressive strain and rolling rate and the fitting curves agree with the experimental results for cartilage very well.

Highlights

► Cartilage's depth-dependent strain fields were investigated under rolling load. ► The normal strain and shear strain increase firstly and then decrease with rolling. ► The normal strain values of different depth decrease with increasing rolling rates. ► The shear strain of deep zone has no big change with increasing rolling rates. ► The relationship of normal strain and normalized depth was obtained.

Keywords

Articular cartilage
Depth-dependent
Normal strain
Shear strain
Optimized DIC technique
Rolling load

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