A pin-on-disc study of the tribology characteristics of sintered versus standard steel gear materials
![Figure 1 from Numerical study of sliding wear caused by a loaded pin on a rotating disc | Semantic Scholar Figure 1 from Numerical study of sliding wear caused by a loaded pin on a rotating disc | Semantic Scholar](https://ai2-s2-public.s3.amazonaws.com/figures/2017-08-08/658ec4e80022a9d256d70f07ad8a55bf1b3ef01d/2-Figure1-1.png)
Figure 1 from Numerical study of sliding wear caused by a loaded pin on a rotating disc | Semantic Scholar
![Instruments | Free Full-Text | Multidirectional Pin-on-Disk Testing Device to Evaluate the Cross-shear Effect on the Wear of Biocompatible Materials Instruments | Free Full-Text | Multidirectional Pin-on-Disk Testing Device to Evaluate the Cross-shear Effect on the Wear of Biocompatible Materials](https://www.mdpi.com/instruments/instruments-03-00035/article_deploy/html/images/instruments-03-00035-g001.png)
Instruments | Free Full-Text | Multidirectional Pin-on-Disk Testing Device to Evaluate the Cross-shear Effect on the Wear of Biocompatible Materials
![Pin-on-Disc Testing of Low-Metallic Friction Material Sliding Against HVOF Coated Cast Iron: Modelling of the Contact Temperature Evolution | SpringerLink Pin-on-Disc Testing of Low-Metallic Friction Material Sliding Against HVOF Coated Cast Iron: Modelling of the Contact Temperature Evolution | SpringerLink](https://media.springernature.com/lw685/springer-static/image/art%3A10.1007%2Fs11249-017-0904-y/MediaObjects/11249_2017_904_Fig3_HTML.gif)