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Strengthening mechanism of TiC/Al composites using Al-Ti-C/CNTs with doping alloying elements (Mg, Zn and Cu)

Hong‐Yu Yang, Xin Yue, Zheng Wang, Yong Shao, Shi–Li Shu

2020Journal of Materials Research and Technology29 citationsDOIOpen Access PDF

Abstract

The nano-TiC/Al composites with different alloying elements (Zn, Cu and Mg) were successfully prepared via a one-step method of reaction and densification in the reaction system of Al-Ti-C/CNTs. With the addition of alloying elements, the exposed crystallographic plane of TiC changed from (100) to (111). And the crystallographic mismatch of TiC(111) and TiC(100) with α-Al was significantly reduced by the Cu and Mg addition. Especially, the Mg addition resulted in 8–10% decrease in the crystallographic mismatch compare to that without alloying element. Consequently, the alloying element addition lead to a significantly increase in the compression strength and wear resistance. With the addition of Mg, the σ0.2 and σUCS of the composite are significantly increased by ∼84.3% and ∼54.7%, respectively. The improvement of interface matching degree plays a leading role in the strengthening of composites.

Topics & Concepts

Materials scienceComposite numberDopingComposite materialOptoelectronicsAluminum Alloys Composites PropertiesAdvanced materials and compositesMXene and MAX Phase Materials
Strengthening mechanism of TiC/Al composites using Al-Ti-C/CNTs with doping alloying elements (Mg, Zn and Cu) | Litcius