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Fracture Behavior of Single-Crystal Sapphire in Different Crystal Orientations

Shizhan Huang, Jia‐Ming Lin, Ningchang Wang, Bicheng Guo, Feng Jiang, Qiuling Wen, Xizhao Lu

2021Crystals21 citationsDOIOpen Access PDF

Abstract

In order to study the anisotropy of fracture toughness and fracture mechanism of single-crystal sapphire, the three-point bending tests and the single-edge V-notch beam (SEVNB) were used to test the fracture toughness of A-plane, C-plane, and M-plane sapphire, which are widely used in the semiconductor, aerospace, and other high-tech fields. Fracture morphology was investigated by a scanning electron microscope and three-dimensional video microscopy. The fracture toughness and fracture morphology of different crystal planes of sapphire showed obvious anisotropy and were related to the loading surfaces. C-plane sapphire showed the maximal fracture toughness of 4.24 MPa·m1/2, and fracture toughness decreases in the order of C-plane, M-plane, and A-plane. The surface roughness is related to the dissipation of fracture energy. The surface roughness of the fracture surface is in the same order as C-plane > M-plane > A-plane. The fracture behavior and morphology of experiments were consistent with the theoretical analysis. C-plane sapphire cleavages along the R-plane with an angle of 57.6 degrees and the rhombohedral twin were activated. M-plane and A-plane sapphire cleavages along their cross-section.

Topics & Concepts

SapphireMaterials scienceFracture toughnessComposite materialFracture (geology)AnisotropySurface finishPlane (geometry)Single crystalScanning electron microscopeSurface roughnessGeometryCrystallographyOpticsChemistryPhysicsMathematicsLaserHigh-Velocity Impact and Material BehaviorAdvanced ceramic materials synthesisAdvanced Surface Polishing Techniques