TY - JOUR AU - Mohr, A. AU - Röttger, A. AU - Theisen, W. PY - 2015/11/25 Y2 - 2024/03/29 TI - Wear Resistant Materials Containing Recycled TiC JF - International Conference on Stone and Concrete Machining (ICSCM) JA - ICSCM VL - 3 IS - 0 SE - Keynote 2 DO - 10.13154/icscm.3.2015.281-290 UR - https://icscm.ub.rub.de/index.php/ICSCM/article/view/411 SP - 281-290 AB - High mechanical loads, corrosion and abrasion decreases the life time of many tooling materials<br />used in the modern economy. One way to increase the wear resistance of tooling materials can be<br />found in the addition of hard particles for example titanium carbide.<br />Titanium carbide (TiC) has a high hardness, good corrosion resistance and a low density.<br />Because of the aforementioned characteristics, TiC is used in Metal Matrix Composites (MMCs) to<br />increase the wear resistance of the material. However, TiC is a cost-intensive material, thereby<br />providing a strong incentive for recycling of TiC from worn parts or machining chips. Due to a new<br />recycling process it is possible to recycle TiC from worn parts or machining chips.<br />In this study, the recycled TiC (RecyTiC) is investigated with regard to the morphology, particle size,<br />chemical composition and phase analyses. In addition, the results were compared to industrial<br />produced TiC. In the next step, the RecyTiC was reused for the production of MMCs. The MMCs<br />reinforced with RecyTiC was also characterized with respect to the microstructure and wear<br />behavior. ER -