open access publication

Article, 2024

Oxygen tri-clusters make glass highly crack-resistant

Acta Materialia, ISSN 1873-2453, 1359-6454, Volume 262, Page 119425, 10.1016/j.actamat.2023.119425

Contributors

Shan, Zhitao [1] Zhao, Tongyao 0009-0007-5811-9636 [2] Ke, Xuefei [1] Ren, Jinjun (Corresponding author) [2] Tao, Hai-Zheng 0000-0002-5013-837X (Corresponding author) [1] Yue, Yuan-Zheng 0000-0002-6048-5236 (Corresponding author) [3]

Affiliations

  1. [1] Wuhan University of Technology
    2. [NORA names: China; Asia, East];
  2. [2] Shanghai Institute of Optics and Fine Mechanics
    3. [NORA names: China; Asia, East];
  3. [3] Aalborg University
    4. [NORA names: AAU Aalborg University; University; Denmark; Europe, EU; Nordic; OECD]

Abstract

Identifying key structural factors that surmount their intrinsic brittleness and poor crack initiation resistance (C R) is crucial for designing glass efficiently and predictably. In this study, we present three significant discoveries that contribute to the design of glasses with superior mechanical performances. Firstly, the C R of the aluminosilicate glasses exhibited a drastic increase when the alumina content surpasses a critical threshold. Secondly, the fraction of three-coordinated oxygens (i.e., oxygen tri-cluster fraction [(3)O]) was successfully quantified using our new Nuclear Magnetic Resonance technique. Thirdly, a correlation between the evolution trend of the [(3)O] and the alumina content was established, which aligns closely with the C R trend. These findings suggest that oxygen tri-clusters play a crucial role in significantly enhancing C R in aluminosilicate glasses.

Keywords

C-R, alumina content, aluminosilicate, aluminosilicate glasses, brittleness, content, correlation, crack initiation resistance, crack resistance, design, design of glasses, designing glasses, discovery, drastic increase, evolution, evolution trend, factors, findings, fraction, glass, higher crack resistance, increase, initiation resistance, intrinsic brittleness, magnetic resonance techniques, mechanical performance, nuclear magnetic resonance techniques, oxygen, performance, resistance, resonance techniques, significant discoveries, structural factors, study, superior mechanical performance, technique, three-coordinated oxygens, threshold, trends, tri-clusters

Funders

  • National Natural Science Foundation of China
  • Ministry of Science and Technology of the People's Republic of China

Data Provider: Digital Science

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