Automatization and stress analysis data of CoCr laser weld fatigue tests
M. Kanerva,
Z. Besharat,
T. Pärnänen,
J. Jokinen,
M. Honkanen,
E. Sarlin,
M. Göthelid,
D. Schlenzka
Affiliations
M. Kanerva
Tampere University, Faculty of Engineering and Natural Sciences, P.O. Box 589, FI-33014 Tampere, Finland; Orton Orthopaedic Hospital and Research Institute Orton, FI-00280 Helsinki, Finland; Corresponding author. Tampere University, Faculty of Engineering and Natural Sciences, P.O. Box 589, FI-33014 Tampere, Finland.
Z. Besharat
Royal Institute of Technology, Surface and Corrosion Science, P.O. Box 10044, SE-16440 Stockholm, Sweden
T. Pärnänen
Orton Orthopaedic Hospital and Research Institute Orton, FI-00280 Helsinki, Finland
J. Jokinen
Tampere University, Faculty of Engineering and Natural Sciences, P.O. Box 589, FI-33014 Tampere, Finland
M. Honkanen
Tampere University, Faculty of Engineering and Natural Sciences, P.O. Box 589, FI-33014 Tampere, Finland
E. Sarlin
Tampere University, Faculty of Engineering and Natural Sciences, P.O. Box 589, FI-33014 Tampere, Finland
M. Göthelid
Royal Institute of Technology, Surface and Corrosion Science, P.O. Box 10044, SE-16440 Stockholm, Sweden
D. Schlenzka
Orton Orthopaedic Hospital and Research Institute Orton, FI-00280 Helsinki, Finland
This work includes raw and analyzed test data when using a recently developed fatigue test method for miniature laser welds in cobalt-chromium (CoCr) alloy joints [1]: 10.1016/j.jmbbm.2019.07.004. The automization of fatigue tests is crucial for saving costs and personnel resources and that is the reason why the atomization threshold and the resulting spectrum data related to CoCr welds are provided here. The finite element method based stress computation output is provided related to shearing-mode tests to support the dataset as a whole. In addition, the compositional data of the parent material and the laser weld are given. Keywords: Fatigue, Automatization, Testing, CoCr, Welding, Laser
