Crack-resistant glass with high shear band density

Autor: Timothy Michael Gross, David E. Baker, J. Wu, R. Yongsunthon, J.J. Price
Rok vydání: 2018
Předmět:
Zdroj: Journal of Non-Crystalline Solids. 494:13-20
ISSN: 0022-3093
Popis: The contact deformation mechanisms were explored for a series of 15CaO 15Al2O3 xB2O3 (70-x)SiO2 glasses exhibiting intermediate indentation behavior. These glasses are defined as intermediate since they deform with significantly higher densification than the comparative normal glass, soda-lime silicate, and significantly more shear deformation that the comparative anomalous glass, Corning 7980 fused silica. Berkovich scratch testing at 30 mN shows that 50% of the scratch impression area is displaced into the pileup region for the normal soda-lime silicate glass, while only 9% of the scratch impression area is displaced into the pileup region for anomalous silica glass. For the series of intermediate glasses studied from x = 5 to x = 25, the scratch area displaced into the pileup region was constant within measurement error at approximately 30%. Since the displaced volume indicates the amount of shear deformation, the relative amounts of shear and densification are considered constant across the intermediate glass series. However, the indentation cracking thresholds are significantly different for the intermediate glasses with the x = 25 endpoint requiring a 3 kgf load to produce median/radial cracks, whereas the x = 5 endpoint glass required only 1 kgf to produce median/radial cracks. A cross-sectional view of the x = 25 glass shows that that deformation occurs with high shear band density, however, these shear bands have not progressed into shear faults. The shear band density and crack resistance both increase as the B2O3 content increases for the 15CaO 15Al2O3 xB2O3 (70-x)SiO2 glass series.
Databáze: OpenAIRE
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