Effect of loading rate and surface conditions on the flexural strength of borosilicate glass

Xu Nie; Weinong W. Chen; Andrew A. Wereszczak; Douglas W. Templeton

doi:10.1111/j.1551-2916.2009.03019.x

Effect of loading rate and surface conditions on the flexural strength of borosilicate glass

Xu Nie
, Weinong W. Chen
, Andrew A. Wereszczak
, Douglas W. Templeton

Research output: Contribution to journal › Article › peer-review

77 Scopus citations

Abstract

This study evaluates the loading rate and surface condition dependence of the flexural strength of a borosilicate glass. The glass specimens are subjected to three different surface treatments before four-point bending tests to study the effect of surface flaws. Quasistatic (Material Test System 810) and dynamic (Kolsky bar) experiments are performed at loading rates ranging from 0.7 to 4 × 10 ⁶ MPa/s. The results show that the flexural strength of the borosilicate glass has a strong dependence on the loading rate. A chemically etched surface produces an enhanced flexural strength by about an order of magnitude. Scanning electron microscopy images on fracture surfaces indicate that the failure is governed by different types of flaws under different surface treatment conditions. Edge failure is also identified for samples possessing high flexural strength.

Original language	English
Pages (from-to)	1287-1295
Number of pages	9
Journal	Journal of the American Ceramic Society
Volume	92
Issue number	6
DOIs	https://doi.org/10.1111/j.1551-2916.2009.03019.x
State	Published - Jun 2009

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10.1111/j.1551-2916.2009.03019.x

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title = "Effect of loading rate and surface conditions on the flexural strength of borosilicate glass",

abstract = "This study evaluates the loading rate and surface condition dependence of the flexural strength of a borosilicate glass. The glass specimens are subjected to three different surface treatments before four-point bending tests to study the effect of surface flaws. Quasistatic (Material Test System 810) and dynamic (Kolsky bar) experiments are performed at loading rates ranging from 0.7 to 4 × 10 6 MPa/s. The results show that the flexural strength of the borosilicate glass has a strong dependence on the loading rate. A chemically etched surface produces an enhanced flexural strength by about an order of magnitude. Scanning electron microscopy images on fracture surfaces indicate that the failure is governed by different types of flaws under different surface treatment conditions. Edge failure is also identified for samples possessing high flexural strength.",

author = "Xu Nie and Chen, \{Weinong W.\} and Wereszczak, \{Andrew A.\} and Templeton, \{Douglas W.\}",

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AU - Nie, Xu

AU - Chen, Weinong W.

AU - Wereszczak, Andrew A.

AU - Templeton, Douglas W.

PY - 2009/6

Y1 - 2009/6

N2 - This study evaluates the loading rate and surface condition dependence of the flexural strength of a borosilicate glass. The glass specimens are subjected to three different surface treatments before four-point bending tests to study the effect of surface flaws. Quasistatic (Material Test System 810) and dynamic (Kolsky bar) experiments are performed at loading rates ranging from 0.7 to 4 × 10 6 MPa/s. The results show that the flexural strength of the borosilicate glass has a strong dependence on the loading rate. A chemically etched surface produces an enhanced flexural strength by about an order of magnitude. Scanning electron microscopy images on fracture surfaces indicate that the failure is governed by different types of flaws under different surface treatment conditions. Edge failure is also identified for samples possessing high flexural strength.

AB - This study evaluates the loading rate and surface condition dependence of the flexural strength of a borosilicate glass. The glass specimens are subjected to three different surface treatments before four-point bending tests to study the effect of surface flaws. Quasistatic (Material Test System 810) and dynamic (Kolsky bar) experiments are performed at loading rates ranging from 0.7 to 4 × 10 6 MPa/s. The results show that the flexural strength of the borosilicate glass has a strong dependence on the loading rate. A chemically etched surface produces an enhanced flexural strength by about an order of magnitude. Scanning electron microscopy images on fracture surfaces indicate that the failure is governed by different types of flaws under different surface treatment conditions. Edge failure is also identified for samples possessing high flexural strength.

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Effect of loading rate and surface conditions on the flexural strength of borosilicate glass

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