Effects of Transition Element Additions on the Interfacial Interaction and Electronic Structure of Al(111)/6H-SiC(0001) Interface: A First-Principles Study

Abstract: In this work, the effects of 20 transition element additions on the interfacial adhesion energy and electronic structure of Al(111)/6H-SiC(0001) interfaces have been studied by the first-principles method. For pristine Al(111)/6H-SiC(0001) interfaces, both Si-terminated and C-terminated interfaces have covalent bond characteristics. The C-terminated interface has higher binding energy, which is mainly due to the stronger covalent bond formed by the larger charge transfer between C and Al. The results show that… Show more

“…[ 12 ] It has recently been discovered through academic study that doping components have a significant influence on the interface between precipitates and their matrix. Wang et al [ 13 ] found that adding 3 d and 4 d transitional group components to Si‐terminated Al/6 H‐SiC interface increases interfacial adhesion energy. The inclusion of rare‐earth elements improved tensile, creep, and wetting characteristics, according to the research by Wu et al [ 14 ] The fine intermetallic dispersion and lower interface energy between matrix and intermetallic increase the creep resistance of the Sn–Ag alloy.…”

Bonding Strength and Fracture Properties of Al (021)/Al₂CuMg (001) Interface and Ag‐Doped Modification: A First‐Principles Study

“…[ 12 ] It has recently been discovered through academic study that doping components have a significant influence on the interface between precipitates and their matrix. Wang et al [ 13 ] found that adding 3 d and 4 d transitional group components to Si‐terminated Al/6 H‐SiC interface increases interfacial adhesion energy. The inclusion of rare‐earth elements improved tensile, creep, and wetting characteristics, according to the research by Wu et al [ 14 ] The fine intermetallic dispersion and lower interface energy between matrix and intermetallic increase the creep resistance of the Sn–Ag alloy.…”

Bonding Strength and Fracture Properties of Al (021)/Al₂CuMg (001) Interface and Ag‐Doped Modification: A First‐Principles Study

“…The present Special Issue provides a collection of ten articles [1][2][3][4][5][6][7][8][9][10] and a letter [11] in which mainly DFT calculations are employed in order to investigate structural, electronic, mechanical and thermal properties. In these papers, well-established computational methods are used to study various properties of potentially promising new materials [3,4] as well as materials interfaces/grain boundaries and their effect on the mechanical behavior [8][9][10][11]. Reference [3] deals with properties of the P6 4 22-XP (X = Al, Ga, or In) polymorphs and in Reference [4] the Pnm2 1 phase of XN (X = Al, Ga, or In) is investigated.…”

“…In References [8] and [9], the focus is on the modification of mechanical properties by introducing foreign atoms at interfaces of iron-based alloys. The modification of the Al(111)/6H-Sic(0001) interface by several transition element atoms is systematically studied in Reference [10]. These results are very important for application of SiC particle reinforced Al-matrix composites.…”

First-Principle and Atomistic Modelling in Materials Science

The electron transfer mechanism between metal and silicon oxide composites for triboelectric nanogenerators