Bu çalışmada, grafit katkılı Polipropilen (PP) kompozitlerinin mekanik ve tribolojik özellikleri incelenmiştir. Bu amaçla, PP polimerine ağırlıkça %1, 3, 5 ve 10 oranlarında grafit ilave edilmiştir. PP/Grafit granülleri çift vidalı ekstruderde elde edildikten sonra çekme ve aşınma numuneleri enjeksiyon kalıplama tekniği ile elde edilmiştir. Farklı oranlarda grafit katkılı PP kompozitlerin aşınma ve sürtünme davranışları pim-disk sisteminde ve kuru ortam şartları altında 1.0m/s ve 1.5m/s kayma hızı ve 20N ve 40N yük altında gerçekleştirilmiştir. Çalışma sonucunda, PP polimerine ilave edilen grafit minerali ile çekme dayanımı azalırken çekme modülü artmıştır. Grafit katkılı PP kompozitin sürtünme katsayısı ve aşınma oranı uygulanan yük ve kayma hızından etkilenmiştir.
In this study, the mechanical and tribolological properties of graphite-contributed polypropylene (PP) composites were studied. For this purpose, graphite was added to PP polymers in weight percentages of 1, 3, 5 and 10. After PP/Graphite granules are obtained in double-flat extract, drawing and scratching samples are obtained with the injection forming technique. Graphite-contributed PP composites in different proportions have been scratched and scratched at the pim-disk system and under dry environment conditions at 1.0m/s and 1.5m/s swing speed and under 20N and 40N load. As a result of the study, the drawing module has increased while the drawing resistance is reduced with the graphite mineral added to the PP polymer. Graphite contributed PP composite is influenced by the freezing rate and the freezing rate applied by the load and sliding rate.
In this study, mechanical and tribological properties of graphite filled polypropylene (PP) composites were investigated. For this purpose, 1, 3, 5 and 10% by weight graphite was added to the PP polymer. After PP/Graphite granules were obtained in twin screw extruder, tensile and wear samples were obtained by injection molding technique. The wear and friction behavior of graphite reinforced PP composites were performed in pin-on-disc system, under dry environment conditions at 1.0m/s and 1.5m/s sliding speed and 20N-40N load. As a result of the study mineral added to PP polymer decreased tensile strength and increased tensile modulus. Moreover, the friction coefficient and wear rate of the graphite filled PP composite were affected by the applied load and sliding speed.
Dergi Türü : Ulusal
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