Abstract
Nitinol staples are in forefront of internal fixation devices. The application of staples in comparison with other fixation methods such as plates, screws or pins has benefits of being less invasive and simpler. There is a huge potential of using Nitinol in the orthopedic field, but so far only limited research done on material properties of Nitinol in combination with fatigue life of Nitinol staples. Earlier work has shown significant impact of grain size on fatigue life of Nitinol sheet. The aim of this study was a comparative investigation on the fatigue behavior of semi-finished Nitinol flat continuous rolled sheets with staple shaped samples and optimization of Nitinol sheet for the use in the biomedical implant under product-related conditions. Samples based on a generic staple design used in the internal fixation of the musculoskeletal system and four-point bend test methods were used to conduct this study. Monotonic force-displacement tests at different maximum force conditions were conducted, to understand the relationship between microstructure in Nitinol sheets and fatigue life. To get a better understanding of these correlations is primary objective of this investigation.
