Ratio of mirror zone depth to flaw depth after failure of glass beams

M. Vandebroek; J. Belis; C. Louter; G. Molnár

doi:10.1201/b14563-33

Ratio of mirror zone depth to flaw depth after failure of glass beams

M. Vandebroek, J. Belis, C. Louter, G. Molnár

Research output: Chapter in Book/Conference proceedings/Edited volume › Conference contribution › Scientific › peer-review

Abstract

A precise estimation of the edge strength becomes an important issue when designing structural glass beams or façade mullions. However, in literature, the glass edge strength is poorly documented compared to the surface strength. In particular, the experimental validation of an edge strength model is lacking. Therefore, in this project, a ratio is assessed between the flaw depth and the mirror zone depth to determine more easily the geometry factor used in the edge strength model. Glass specimens with arrised and ground edges were tested at a high stress rate (50 MPa/s) with an in-plane four-point bending test setup. After failure, the critical flaw and the corresponding mirror zone was examined by means of an optical microscope. As the ratio of these values could be determined rather accurately, in future the geometry factor can be determined only by measuring the mirror zone depth instead of the flaw depth.

Original language	English
Title of host publication	COST Action TU0905 Mid-Term Conference on Structural Glass - Proceedings of COST Action TU0905 Mid-Term Conference on Structural Glass
Publisher	CRC Press / Balkema - Taylor & Francis Group
Pages	235-241
Number of pages	7
ISBN (Print)	9781138000445
DOIs	https://doi.org/10.1201/b14563-33
Publication status	Published - 2013
Externally published	Yes
Event	COST action TU0905 mid-term conference on structural glass - Porec, Croatia Duration: 18 Apr 2013 → 19 Apr 2013

Publication series

Name	COST Action TU0905 Mid-Term Conference on Structural Glass - Proceedings of COST Action TU0905 Mid-Term Conference on Structural Glass

Conference

Conference	COST action TU0905 mid-term conference on structural glass
Abbreviated title	COST action TU0905
Country/Territory	Croatia
City	Porec
Period	18/04/13 → 19/04/13

Access to Document

10.1201/b14563-33

Cite this

Vandebroek, M., Belis, J., Louter, C., & Molnár, G. (2013). Ratio of mirror zone depth to flaw depth after failure of glass beams. In COST Action TU0905 Mid-Term Conference on Structural Glass - Proceedings of COST Action TU0905 Mid-Term Conference on Structural Glass (pp. 235-241). (COST Action TU0905 Mid-Term Conference on Structural Glass - Proceedings of COST Action TU0905 Mid-Term Conference on Structural Glass). CRC Press / Balkema - Taylor & Francis Group. https://doi.org/10.1201/b14563-33

Vandebroek, M. ; Belis, J. ; Louter, C. ; Molnár, G. / Ratio of mirror zone depth to flaw depth after failure of glass beams. COST Action TU0905 Mid-Term Conference on Structural Glass - Proceedings of COST Action TU0905 Mid-Term Conference on Structural Glass. CRC Press / Balkema - Taylor & Francis Group, 2013. pp. 235-241 (COST Action TU0905 Mid-Term Conference on Structural Glass - Proceedings of COST Action TU0905 Mid-Term Conference on Structural Glass).

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title = "Ratio of mirror zone depth to flaw depth after failure of glass beams",

abstract = "A precise estimation of the edge strength becomes an important issue when designing structural glass beams or fa{\c c}ade mullions. However, in literature, the glass edge strength is poorly documented compared to the surface strength. In particular, the experimental validation of an edge strength model is lacking. Therefore, in this project, a ratio is assessed between the flaw depth and the mirror zone depth to determine more easily the geometry factor used in the edge strength model. Glass specimens with arrised and ground edges were tested at a high stress rate (50 MPa/s) with an in-plane four-point bending test setup. After failure, the critical flaw and the corresponding mirror zone was examined by means of an optical microscope. As the ratio of these values could be determined rather accurately, in future the geometry factor can be determined only by measuring the mirror zone depth instead of the flaw depth.",

author = "M. Vandebroek and J. Belis and C. Louter and G. Moln{\'a}r",

year = "2013",

doi = "10.1201/b14563-33",

language = "English",

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series = "COST Action TU0905 Mid-Term Conference on Structural Glass - Proceedings of COST Action TU0905 Mid-Term Conference on Structural Glass",

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pages = "235--241",

booktitle = "COST Action TU0905 Mid-Term Conference on Structural Glass - Proceedings of COST Action TU0905 Mid-Term Conference on Structural Glass",

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Vandebroek, M, Belis, J, Louter, C & Molnár, G 2013, Ratio of mirror zone depth to flaw depth after failure of glass beams. in COST Action TU0905 Mid-Term Conference on Structural Glass - Proceedings of COST Action TU0905 Mid-Term Conference on Structural Glass. COST Action TU0905 Mid-Term Conference on Structural Glass - Proceedings of COST Action TU0905 Mid-Term Conference on Structural Glass, CRC Press / Balkema - Taylor & Francis Group, pp. 235-241, COST action TU0905 mid-term conference on structural glass, Porec, Croatia, 18/04/13. https://doi.org/10.1201/b14563-33

Ratio of mirror zone depth to flaw depth after failure of glass beams. / Vandebroek, M.; Belis, J.; Louter, C.; Molnár, G.

COST Action TU0905 Mid-Term Conference on Structural Glass - Proceedings of COST Action TU0905 Mid-Term Conference on Structural Glass. CRC Press / Balkema - Taylor & Francis Group, 2013. p. 235-241 (COST Action TU0905 Mid-Term Conference on Structural Glass - Proceedings of COST Action TU0905 Mid-Term Conference on Structural Glass).

Research output: Chapter in Book/Conference proceedings/Edited volume › Conference contribution › Scientific › peer-review

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AU - Belis, J.

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PY - 2013

Y1 - 2013

N2 - A precise estimation of the edge strength becomes an important issue when designing structural glass beams or façade mullions. However, in literature, the glass edge strength is poorly documented compared to the surface strength. In particular, the experimental validation of an edge strength model is lacking. Therefore, in this project, a ratio is assessed between the flaw depth and the mirror zone depth to determine more easily the geometry factor used in the edge strength model. Glass specimens with arrised and ground edges were tested at a high stress rate (50 MPa/s) with an in-plane four-point bending test setup. After failure, the critical flaw and the corresponding mirror zone was examined by means of an optical microscope. As the ratio of these values could be determined rather accurately, in future the geometry factor can be determined only by measuring the mirror zone depth instead of the flaw depth.

AB - A precise estimation of the edge strength becomes an important issue when designing structural glass beams or façade mullions. However, in literature, the glass edge strength is poorly documented compared to the surface strength. In particular, the experimental validation of an edge strength model is lacking. Therefore, in this project, a ratio is assessed between the flaw depth and the mirror zone depth to determine more easily the geometry factor used in the edge strength model. Glass specimens with arrised and ground edges were tested at a high stress rate (50 MPa/s) with an in-plane four-point bending test setup. After failure, the critical flaw and the corresponding mirror zone was examined by means of an optical microscope. As the ratio of these values could be determined rather accurately, in future the geometry factor can be determined only by measuring the mirror zone depth instead of the flaw depth.

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BT - COST Action TU0905 Mid-Term Conference on Structural Glass - Proceedings of COST Action TU0905 Mid-Term Conference on Structural Glass

PB - CRC Press / Balkema - Taylor & Francis Group

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Y2 - 18 April 2013 through 19 April 2013

ER -

Vandebroek M, Belis J, Louter C, Molnár G. Ratio of mirror zone depth to flaw depth after failure of glass beams. In COST Action TU0905 Mid-Term Conference on Structural Glass - Proceedings of COST Action TU0905 Mid-Term Conference on Structural Glass. CRC Press / Balkema - Taylor & Francis Group. 2013. p. 235-241. (COST Action TU0905 Mid-Term Conference on Structural Glass - Proceedings of COST Action TU0905 Mid-Term Conference on Structural Glass). https://doi.org/10.1201/b14563-33

Ratio of mirror zone depth to flaw depth after failure of glass beams

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