[1] [1] GLEITER H, SCHIMMEL T, HAHN H. Nanostructured solids–From nano-glasses to quantum transistors[J]. Nano Today, 2014, 9(1): 17–68.

[2] [2] WITTE R, FENG T, FANG J X, et al. Evidence for enhanced ferromagnetism in an iron-based nanoglass[J]. Appl Phys Lett, 2013, 103(7): 073106.

[3] [3] ZHANG Y M, HUANG L P, SHI Y F. Silica glass toughened by consolidation of glassy nanoparticles[J]. Nano Lett, 2019, 19(8): 5222–5228.

[4] [4] MING K S, ZHU Z W, ZHU W Q, et al. Enhancing strength and ductility via crystalline-amorphous nanoarchitectures in TiZr-based alloys[J]. Sci Adv, 2022, 8(10): eabm2884.

[5] [5] WU G, CHAN K C, ZHU L L, et al. Dual-phase nanostructuring as a route to high-strength magnesium alloys[J]. Nature, 2017, 545(7652): 80–83.

[6] [6] NANDAM S H, IVANISENKO Y, SCHWAIGER R, et al. Cu—Zr nanoglasses: Atomic structure, thermal stability and indentation properties[J]. Acta Mater, 2017, 136: 181–189.

[7] [7] NANDAM S H, ADJAOUD O, SCHWAIGER R, et al. Influence of topological structure and chemical segregation on the thermal and mechanical properties of Pd—Si nanoglasses[J]. Acta Mater, 2020, 193: 252–260.

[8] [8] XU X Q, LIU J C, WANG Y, et al. Preparation of dense amorphous Al2O3–ZrO2–Y2O3 by two-step hot pressing[J]. J Eur Ceram Soc, 2015, 35(13): 3755–3759.

[9] [9] ROSENFLANZ A, FREY M, ENDRES B, et al. Bulk glasses and ultrahard nanoceramics based on alumina and rare-earth oxides[J]. Nature, 2004, 430(7001): 761–764.

[14] [14] XU X Q, HU X X, REN S E, et al. Fine grained Al2O3–ZrO2(Y2O3) ceramics by controlled crystallization of amorphous phase[J]. J Eur Ceram Soc, 2016, 36(7): 1791–1796.

[15] [15] GUILLON O, GONZALEZ-JULIAN J, DARGATZ B, et al. Field-assisted sintering technology/spark plasma sintering: Mechanisms, materials, and technology developments[J]. Adv Eng Mater, 2014, 16(7): 830–849.

[18] [18] MAURYA R S, SAHU A, LAHA T. Effect of consolidation pressure on phase evolution during sintering of mechanically alloyed Al86Ni8Y6 amorphous powders via spark plasma sintering[J]. Mater Sci Eng A, 2016, 649: 48–56.

[21] [21] CHEN L, LI B H, GUO J, et al. High-entropy perovskite RETa3O9 ceramics for high-temperature environmental/thermal barrier coatings[J]. J Adv Ceram, 2022, 11(4): 556–569.

[22] [22] GONG J H, DENG B, QIU H P, et al. Description of the nanoindentation unloading curves with a universal function: Theoretical consideration and applications to brittle materials[J]. Mater Chem Phys, 2020, 251: 123165.

[23] [23] GONG J, DENG B, JIANG D. On the efficiency of the "effective truncation length" of indenter tip in mechanical property determination with nanoindentation tests[J]. Mater Today Commun, 2020, 25: 101412.