Abstract
Surface topography modifications due to wear or other factors are usually investigated by visual and microscopic inspection, and—when quantitative assessment is required—through the computation of surface texture parameters. However, the current state-of-the-art areal topography measuring instruments produce detailed, areal reconstructions of surface topography which, in principle, may allow accurate comparison of the individual topographic formations before and after the modification event. The main obstacle to such an approach is registration, i.e. being able to accurately relocate the two topography datasets (measured before and after modification) in the same coordinate system. The challenge is related to the measurements being performed in independent coordinate systems, and on a surface which, having undergone modifications, may not feature easily-identifiable landmarks suitable for alignment. In this work, an algorithmic registration solution is proposed, based on the automated identification and alignment of matching topographic features. A shape descriptor (adapted from the scale invariant feature transform) is used to identify landmarks. Pairs of matching landmarks are identified by similarity of shape descriptor values. Registration is implemented by resolving the absolute orientation problem to align matched landmarks. The registration method is validated and discussed through application to simulated and real topographies selected as test cases.
Highlights
The quantitative assessment of surface topography modifications as a consequence of wear and/or other damage events is of paramount importance in many tribological studies related to product, process and material characterisation
The results of the application of the proposed registration method are illustrated for the simulated test cases n.1 and n.2, and for the real test case
The results presented in this work show that the proposed registration method based on automated identification of correspondences is successful at relocating topography data measured pre and post a modification event
Summary
The quantitative assessment of surface topography modifications as a consequence of wear and/or other damage events is of paramount importance in many tribological studies related to product, process and material characterisation. The most common way to quantitatively assess topographic modifications is using profile measurement and consists of computing surface texture parameters on profiles measured before and after the modification event. Areal topography measurement allows the reconstruction of entire portions of the measured surface, and introduces a wide range of opportunities for quantification through the set of areal field parameters, as defined in ISO 25178-2 [9,10,11,12]. Other field parameters capture properties which are visible only on areal datasets (e.g. Std – surface texture direction). In addition to providing multiple viewpoints and useful information on how a topography has changed, areal field parameters have the advantage of allowing quantitative comparison without requiring the two topographies to be accurately located with respect to each other within the same co-ordinate system
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
