Thesis supervisor: Tej Singh
co-supervisor: András Kovács
Location of studies (in Hungarian): Savaria Műszaki Intézet (ELTE), Anyagmérnöki Intézet (PE) Abbreviation of location of studies: ELTE
Description of the research topic:
One can imagine that the evolution within the field of science and technology largely depends on the advancement in materials. Nanomaterials represent nothing but a giant step in the ever-constant endeavor of optimization in materials. Generally nanoparticles’ synthesis is carried out by various physical and chemical methods which use expensive and toxic reagents as reducing/stabilizing agents that may have adverse effects in biomedical applications. Human teeth are one of the most important parts of human body, not only associated with mastication but also play vital role in pronunciation and facial aesthetics of body. Despite of development and advancement in the field of filler technology, coupling system, light curing methods, there is strong need to increase service life of dental material by improving their performance regarding aesthetic properties, polymerization shrinkage, mechanical and tribological properties etc. Therefore in this research work green energy routes are used in the synthesis of nanomateials to be used in dental application.
1. Singh, T; Gangil, B; Patnaik, A; Kumar, S; Rishiraj, A; Fekete, G: Physico-mechanical, thermal and dynamic mechanical behaviour of natural-synthetic fiber reinforced vinylester based homogenous and functionally graded composites. MATERIALS RESEARCH EXPRESS, 6 (2) Paper: 025704, 2019. IF (2017): 1.15
2. Kumar, S; Patel, V.K; Mer, K.K.S; Fekete, G; Gangil, B; Singh, T: Influence of woven bast-leaf hybrid fiber on the physico-mechanical and sliding wear performance of epoxy based polymer composites. MATERIALS RESEARCH EXPRESS, 5, Paper: 105705, 2018. IF (2017): 1.15
3. Singh, T; Patnaik, A; Fekete, G; Chauhan, R; Gangil, B: Application of hybrid analytical hierarchy process and complex proportional assessment approach for optimal design of brake friction materials. POLYMER COMPOSITES, Article in Press, 2018. IF (2017): 1.943
Number of students who can be accepted: 1
Deadline for application: 2020-08-31
2024. IV. 17. ODT ülés Az ODT következő ülésére 2024. június 14-én, pénteken 10.00 órakor kerül sor a Semmelweis Egyetem Szenátusi termében (Bp. Üllői út 26. I. emelet).
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