Affiliation:
1. Institute of Metals and Technology, University of Ljubljana, Lepi Pot 11, 1000 Ljubljana, Slovenia
2. Slovenian Tool and Die Development Centre, TECOS, 3000 Celje, Slovenia
Abstract
The utilization and advancement of a wide variety of polymer materials have led to the development of corresponding plastic injection mould steels. This study aimed to enhance the properties of the commercially available steel EN X33CrS16 (1.2085), specifically designed for corrosion-resistant mould bases. To achieve this, the impact of the addition of boron and nitrogen into the commercially available steel grade was examined, focusing on their effects on polishability, workability, and wear resistance. The analysis revealed a martensitic microstructure with moderate segregation in all investigated samples. The steel modification had no discernible impact on hardness, which remained relatively constant. However, the addition of boron and nitrogen significantly reduced polishing time, with boron exhibiting a more pronounced effect compared to nitrogen. Moreover, the inclusion of boron in the alloy resulted in an impressive 40% decrease in the wear rate, while the wear rate of the other investigated alloys remained relatively unchanged.
Funder
Slovenian Research and Innovation Agency
Subject
General Materials Science,Metals and Alloys
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