Defect behavior and radiation tolerance of MAB phases (MoAlB and Fe2AlB2) with comparison to MAX phases

Zhang, Hongliang; Kim, Jun Young; Su, Ranran; Richardson, Peter; Xi, Jianqi; Kisi, Erich H.; O’Connor, John; Shi, Liqun; Szlufarska, Izabela

doi:10.1016/j.actamat.2020.07.002

Cited by 42 publications

(23 citation statements)

References 41 publications

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“…For the 750 °C irradiated sample, the changes in the hardness and Young's modulus are much smaller than those for the RT irradiated sample, which confirms that the Ti 3 SiC 2 has better tolerance for irradiation induced mechanical properties change at 750 °C than that at RT, although changes of ~8-10% in mechanical properties observed at 750 °C are not insignificant. Modulus/GPa and at 750°C from [11][12][13][14][15][16][17][18][19][20] are shown in Figs. 6a and 6b, respectively.…”

Section: Resultsmentioning

confidence: 99%

“…Specifically, under ion irradiation, Ti 3 SiC 2 was found to remain crystalline even at a very high dose of 116.9 displacements per atom (dpa) [11]. Furthermore, experiments have shown that at temperatures above 400 °C, Ti 3 SiC 2 has a better resistance to radiation-induced cracking as compared with other MAX phase materials, such as Ti 3 AlC 2 and Ti 2 AlC [9,12,13].…”

Section: Introductionmentioning

confidence: 99%

“…Fig 6. TEM image of the Ti 3 SiC 2 samples, observed from[11][12][13][14][15][16][17][18][19][20], irradiated at (a) RT, the white spots are He bubbles, the black region is the damage peak region which has a high density ofblack spots defects and (b) 750℃. (c) HRTEM of the Ti 3 SiC 2 samples irradiated at 750 ℃ showing a He bubble located in the bulk and aligned parallel to basal plane.…”

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Helium effects and bubbles formation in irradiated Ti3SiC2

Zhang

Szlufarska

et al. 2021

Journal of the European Ceramic Society

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Section: Resultsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Helium effects and bubbles formation in irradiated Ti3SiC2

Zhang

Szlufarska

et al. 2021

Journal of the European Ceramic Society

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“…MoAlB, as the most studied MAB phase, has been widely investigated from theoretical simulations [3][4][5] to experimental studies, and exhibits attractive mechanical properties, high temperature properties, radiation tolerance, and ablation resistance [6][7][8][9][10][11][12]. So far, MoAlB as the only one in the MAB phase family has been demonstrated with better oxidation resistance than other Al-containing MAB phases (such as Fe 2 AlB 2 and Cr 2 AlB 2 ) at temperatures below 1300 ℃ due to J Adv Ceram 2022, 11(2): 0-0 www.springer.com/journal/40145 the formation of a dense and continuous α-Al 2 O 3 layer [13][14][15][16].…”

Section: Introduction mentioning

confidence: 99%

Synthesis and properties of MoAlB composites reinforced with SiC particles

Zhang

et al. 2022

J Adv Ceram

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Novel MoAlB composites reinforced with 5–15 vol% SiC have been firstly prepared and characterized in the present study. The SiC reinforcement is stable with MoAlB at a sintering temperature of 1200 °C in Ar. The 5 vol% SiC/MoAlB composite exhibited improved mechanical properties and enhanced oxidation resistance. A flexural strength of 380 MPa and a Vickers hardness of 12.7 GPa were achieved and increased by 24% and 51%, respectively, as compared with those for MoAlB, indicating the enhanced strengthening effect of SiC. Cyclic oxidation tests at 1200 and 1300 °C for 10 h in air showed that the 5 vol% SiC/MoAlB composite has better oxidation resistance than MoAlB due to the formation of a dense and continuous scale composed of Al2O3 and SiO2, which prevents the oxygen inward diffusion and the evaporation of oxides. We expect that the general strategy of second phase reinforcing for materials will help to widen the applications of MoAlB composites.

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“…Inspired by the unique properties of the MAX phases, a family of nano laminated ternary borides, named MAB phases (where M is a transition metal, A is a IIIA or IVA group element, and B is boron) were proposed by Ade and Hillebrecht [4] in 2015. MAB phases are anticipated to exhibit similar properties to the MAX phases, such as good electrical conductivity, damage tolerance [5,6], resistance to thermal shock [7] and oxidation [8] at high temperatures, as well as superior high-temperature strength [7] and self-healing capability of cracks [9].…”

Section: Introduction mentioning

confidence: 99%

Electronic structure, bonding characteristics, and mechanical behaviors of a new family of Si-containing damage-tolerant MAB phases M5SiB2 (M = IVB—VIB transition metals)

Zhang²,

Zhou³

2022

J Adv Ceram

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MAB phases are layered ternary compounds with alternative stacking of transition metal boride layers and group A element layers. Until now, most of the investigated MAB phases are concentrated on compounds with Al as the A element layers. In this work, the family of M5SiB2 (M = IVB—VIB transition metals) compounds with silicon as interlayers were investigated by density functional theory (DFT) methods as potential MAB phases for high-temperature applications. Starting from the known Mo5SiB2, the electronic structure, bonding characteristics, and mechanical behaviors were systematically investigated and discussed. Although the composition of M5SiB2 does not follow the general formula of experimentally reported (MB)2zAx(MB2)y (z = 1, 2; x = 1, 2; y = 0, 1, 2), their layered structure and anisotropic bonding characteristics are similar to other known MAB phases, which justifies their classification as new members of this material class. As a result of the higher bulk modulus and lower shear modulus, Mo5SiB2 has a Pugh’s ratio of 0.53, which is much lower than the common MAB phases. It was found that the stability and mechanical properties of M5SiB2 compounds depend on their valence electron concentrations (VECs), and an optimum VEC exists as the criteria for stability. The hypothesized Zr and Hf containing compounds, i.e., Zr5SiB2 and Hf5SiB2, which are more interesting in terms of high-temperature oxidation/ablation resistance, were found to be unfortunately unstable. To cope with this problem, a new stable solid solution (Zr0.6Mo0.4)5SiB2 was designed based on VEC tuning to demonstrate a promising approach for developing new MAB phases with desirable compositions.

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Defect behavior and radiation tolerance of MAB phases (MoAlB and Fe2AlB2) with comparison to MAX phases

Cited by 42 publications

References 41 publications

Helium effects and bubbles formation in irradiated Ti3SiC2

Helium effects and bubbles formation in irradiated Ti3SiC2

Synthesis and properties of MoAlB composites reinforced with SiC particles

Electronic structure, bonding characteristics, and mechanical behaviors of a new family of Si-containing damage-tolerant MAB phases M5SiB2 (M = IVB—VIB transition metals)

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