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- 2021 (4) (entfernen)
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- Archard's law (2)
- Wear (2)
- 100Cr6 (AISI 52100) steel (1)
- 100Cr6 steel (1)
- 100Cr6-Stahl (1)
- Atomic force microscope (1)
- Gesetz von Archard (1)
- Nanowear (1)
- Particle transfer (1)
- Scattering (1)
Organisationseinheit der BAM
Wear test results exhibit often large scattering. Hence, the study of spreading of experimental results requires big datasets.
In various studies, wear coefficients were found to have lognormal distributions. Therefore, it was supposed that the wear coefficient is affected by two normally distributed variables, which combine through a product.
In the present study, we demonstrate that a lognormal distribution may arise from a nonconstant wear coefficient, too, i.e., when a system does not follow Archard’s law.
Die vorliegende Doktorarbeit handelt von der Bestimmung und der Untersuchung vom Verschleißvolumen und vom Verschleißkoeffizienten bei ungeschmierten Modellversuchen an 100Cr6-Ebenen und -Kugeln unter Schwingungsbeanspruchung. Die experimentelle Arbeit wurde mittels statistischer Auswertung einer großen Menge von eigenen und früheren Versuchsdaten an fünf Tribometern bei umfangreicher Variation der Beanspruchungsparameter durchgeführt. Ziel war es, die Wiederholbarkeit und Reproduzierbarkeit der experimentellen Ergebnisse zu überprüfen sowie das Archard-Gesetz zu verifizieren. Des Weiteren wurde der Einfluss der Luftfeuchtigkeit auf den Verschleiß untersucht.
Considerable scattering of experimental wear results affects seriously the evaluation of repeatability and reproducibility of tribological measurements and hampers detecting, studying, and verifying tribological laws. An accurate characterization of the statistics of results, the detection of the influence of operating parameters, and the verification of equations describing tribological phenomena can be achieved only through the analysis of large datasets with wide variation of parameters. Taking advantage of more than 400 experiments performed with the same material pairing under the same conditions on four different tribometers, the repeatability and reproducibility of volumetric wear measurements has been evaluated using Welch's test.
By testing Archard's law over seven orders of magnitude of sFN, it was found that this law is not universally valid and that, under certain conditions, the wear coefficient depends on sFN itself.
We show for the first time tribotests performed with self-mated 100Cr6 steel, taking advantage of an AFM, employed as a tribometer for the tribotests as well as for the inspection of wear of both tribopartners. Emphasis is put on the morphology of the scars, on wear particles, and on wear of the “colloidal” particles glued on the AFM cantilever. Measurements demonstrate the possibility of characterizing single asperity events leading to very small wear. We highlight several phenomena, which are elementary key constituents of tribological processes. Such phenomena, probably occurring also at the macroscale, can be detected, identified, and characterized with high spatial and time resolution only at the nanoscale, thus giving insight into conditions and causes of their emergence.