Emre Saka scite author profile

Emre Saka

2Publications

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19Citation Statements Given

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Sakarya University

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Ti3SiC2 MAX Phase From TiC-Si-Ti Mixture

Atasoy

Saka

2018

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There are more than ten MAX phase systems and more than fifty MAX phases. This work is focused to produce Ti3SiC2 MAX phase using Si, C, TiC powders. On the DTA curve of the mixture showed two exothermic peaks at temperature 970 and 1250 ˚C which were related with the formation of the MAX structure on the carbide layer. TiSi, SiC, TiC and Ti3SiC2 phases were detected in the sintered samples at temperature above 1300 ˚C for 3 h sintering time. At higher temperature and longer reaction time, SiC decomposes depending on the holding and reaction temperature. The silicon to titanium carbide and carbon ratios should be in stoichiometric but the silicon content of the starting composition requires more than 20% excess.

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Max phase alloys and theirthermo-physical properties

Altuncu¹,

Türkan²,

Saka³

et al. 2015

J Aeronaut Space Technol

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ÖZET (Al, Si, In, Ge, Ga, Sn, Pb gibi) ve X ise: C (karbür) ve/veya N (Nitrür) MAX PHASE ALLOYS AND THEIRTHERMO-PHYSICAL PROPERTIES ABSTRACT MAX phases represent a gruop of alloys which is also defined as multilayered alloys because of their crystal shape specifictiy that started to be used in the late 1960's. MAX phase alloys are usually sorted like this. Mn+1AXn n:1,2,3; M: Transition metals (Like Ti, Zr, Hf, V, Mo, Ta ) : A: A group metals (Like Al, Si, In, Ge, Ga, Sn, Pb )

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Emre Saka

Ti3SiC2 MAX Phase From TiC-Si-Ti Mixture

Max phase alloys and theirthermo-physical properties

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