Abstract
Tool steels are used in technological processes of forming and cutting and as cutting tools due to their good mechanical properties. During their working cycle, steels are exposed to several aggressive conditions, such as thermal stress, fatigue and various forms of wear. In this article, the selected 90MnCrV8 tool steel slid against the Si3N4 testing ceramic bearing ball. All measurements were performed on a universal tribometric device UMT TriboLab (TA Instruments, New Castle, Delaware, USA) under dry conditions. The main objective of the performed experiments was to analyse the frictional properties and compare the wear of the 90MnCrV8 tested tool steel in contact with the 6.35 mm diameter ceramic ball at different friction speeds. In this measurement evaluation, the authors of the article mainly focused on the influence of the magnitude of the peripheral speed on the wear change and coefficient of friction. Further analysis was focused on the change of surface roughness of the counterpart ceramic balls as well as of the tested tool steel samples. Experimental results show the fact that tested tool steels, which can also be considered as high strength steels, can also successfully represent wear-resistant steels. It has been shown experimentally that increasing the friction speed also leads to significant degradation of the material on the sample surface. Finally, the effect of hardness on wear has also been experimentally demonstrated. The Si3N4 ceramic ball with its high strength also behaves like an abrasive, thus increasing the wear rate on the experimental tool steel samples.
Highlights
A variety of tool steels are used in the manufacture of various components, which are subject to high stress and wear during processes of friction that have a large impact during their operating life
Miloradovič et al [3] investigated the tribological behaviour of zinc–aluminium alloy by the block on ring method in dry sliding friction. In all these performed tests, the 90MnCrV8 tool steel was used as the opposite sliding surface. These results show the fact that the coefficient of friction decreases as the sliding speed increases, while the wear rate decreases
Wear was evaluated in the form of a specific wear rate W depending on the sliding distance
Summary
A variety of tool steels are used in the manufacture of various components, which are subject to high stress and wear during processes of friction that have a large impact during their operating life. They are most often used in milling, drilling, sawing and measuring instruments, as well as in the production of various types of dies and moulds. Bourithis et al [1] examined the wear properties of two tool steels (X153CrMoV12 steel and O1 steel) using the pin on disc method. Omer and Muammer [2] studied and compared the wear of seven different materials (X153CrMoV12, Vanadis 4, Vancron 40, K340 ISODUR, Caldie, Carmo, and 0050A)
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
