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Structural Strength of Laminated Glass. / Rodichev, Yurii; Veer, Fred; Strizhalo, Vladimir; Soroka, Elena; Shabetia, Alexander.

Proceedings of the Challenging Glass Conference 6 (CGC 6): International Conference on the Architectural and Structural Application of Glass. ed. / Christian Louter; Freek Bos; Jan Belis; Fred Veer; Rob Nijsse. Delft University of Technology, 2018. p. 453-462.

Research output: Chapter in Book/Report/Conference proceedingConference contributionScientificpeer-review

Harvard

Rodichev, Y, Veer, F, Strizhalo, V, Soroka, E & Shabetia, A 2018, Structural Strength of Laminated Glass. in C Louter, F Bos, J Belis, F Veer & R Nijsse (eds), Proceedings of the Challenging Glass Conference 6 (CGC 6): International Conference on the Architectural and Structural Application of Glass. Delft University of Technology, pp. 453-462, Challenging Glass 6, Delft, Netherlands, 17/05/18. https://doi.org/10.7480/cgc.6.2168

APA

Rodichev, Y., Veer, F., Strizhalo, V., Soroka, E., & Shabetia, A. (2018). Structural Strength of Laminated Glass. In C. Louter, F. Bos, J. Belis, F. Veer, & R. Nijsse (Eds.), Proceedings of the Challenging Glass Conference 6 (CGC 6): International Conference on the Architectural and Structural Application of Glass (pp. 453-462). Delft University of Technology. https://doi.org/10.7480/cgc.6.2168

Vancouver

Rodichev Y, Veer F, Strizhalo V, Soroka E, Shabetia A. Structural Strength of Laminated Glass. In Louter C, Bos F, Belis J, Veer F, Nijsse R, editors, Proceedings of the Challenging Glass Conference 6 (CGC 6): International Conference on the Architectural and Structural Application of Glass. Delft University of Technology. 2018. p. 453-462 https://doi.org/10.7480/cgc.6.2168

Author

Rodichev, Yurii ; Veer, Fred ; Strizhalo, Vladimir ; Soroka, Elena ; Shabetia, Alexander. / Structural Strength of Laminated Glass. Proceedings of the Challenging Glass Conference 6 (CGC 6): International Conference on the Architectural and Structural Application of Glass. editor / Christian Louter ; Freek Bos ; Jan Belis ; Fred Veer ; Rob Nijsse. Delft University of Technology, 2018. pp. 453-462

BibTeX

@inproceedings{c9dd3b73e9454e2482efadb52945098d,
title = "Structural Strength of Laminated Glass",
abstract = "The subject area {"}structural strength of materials{"} is defined generally as а complex of strength characteristics of materials and structural elements, obtained under special mechanical tests. It is shown that these tests should take into account not only the physical and mechanical properties of the material, but technology, blank processing, sphere of application, the influence of shape and sizes of elements as well as of their specific loading and operating conditions. Methods for evaluating the structural strength of glass as a linearly elastic material with high sensitivity to technological defects and operational damage are discussed in the paper. Some results of the study of the strength of elements of architectural and bulletproof laminated glass are given. The sizes of technological defects such as cracks in large-sized building elements are determined on the basis of the results of tests of sheet glass plates on bending. The bending strength of sheet float glass with a thickness up to 10 mm reinforced with modification of the glass surface using various industrial technologies is considered. Some methods and results of experimental study the features of the change in the strength and rigidity of laminated armored glass under multiple ballistic tests are also presented.",
keywords = "Glass, Structural Strength, Laminated Glass, Secant Effective Modulus of Elasticity, Post-Failure Strength, Post-Failure Rigidity, Local Loading, Impact load",
author = "Yurii Rodichev and Fred Veer and Vladimir Strizhalo and Elena Soroka and Alexander Shabetia",
year = "2018",
month = "5",
doi = "10.7480/cgc.6.2168",
language = "English",
pages = "453--462",
editor = "Christian Louter and Freek Bos and Jan Belis and Fred Veer and Rob Nijsse",
booktitle = "Proceedings of the Challenging Glass Conference 6 (CGC 6)",
publisher = "Delft University of Technology",

}

RIS

TY - GEN

T1 - Structural Strength of Laminated Glass

AU - Rodichev, Yurii

AU - Veer, Fred

AU - Strizhalo, Vladimir

AU - Soroka, Elena

AU - Shabetia, Alexander

PY - 2018/5

Y1 - 2018/5

N2 - The subject area "structural strength of materials" is defined generally as а complex of strength characteristics of materials and structural elements, obtained under special mechanical tests. It is shown that these tests should take into account not only the physical and mechanical properties of the material, but technology, blank processing, sphere of application, the influence of shape and sizes of elements as well as of their specific loading and operating conditions. Methods for evaluating the structural strength of glass as a linearly elastic material with high sensitivity to technological defects and operational damage are discussed in the paper. Some results of the study of the strength of elements of architectural and bulletproof laminated glass are given. The sizes of technological defects such as cracks in large-sized building elements are determined on the basis of the results of tests of sheet glass plates on bending. The bending strength of sheet float glass with a thickness up to 10 mm reinforced with modification of the glass surface using various industrial technologies is considered. Some methods and results of experimental study the features of the change in the strength and rigidity of laminated armored glass under multiple ballistic tests are also presented.

AB - The subject area "structural strength of materials" is defined generally as а complex of strength characteristics of materials and structural elements, obtained under special mechanical tests. It is shown that these tests should take into account not only the physical and mechanical properties of the material, but technology, blank processing, sphere of application, the influence of shape and sizes of elements as well as of their specific loading and operating conditions. Methods for evaluating the structural strength of glass as a linearly elastic material with high sensitivity to technological defects and operational damage are discussed in the paper. Some results of the study of the strength of elements of architectural and bulletproof laminated glass are given. The sizes of technological defects such as cracks in large-sized building elements are determined on the basis of the results of tests of sheet glass plates on bending. The bending strength of sheet float glass with a thickness up to 10 mm reinforced with modification of the glass surface using various industrial technologies is considered. Some methods and results of experimental study the features of the change in the strength and rigidity of laminated armored glass under multiple ballistic tests are also presented.

KW - Glass

KW - Structural Strength

KW - Laminated Glass

KW - Secant Effective Modulus of Elasticity

KW - Post-Failure Strength

KW - Post-Failure Rigidity

KW - Local Loading

KW - Impact load

U2 - 10.7480/cgc.6.2168

DO - 10.7480/cgc.6.2168

M3 - Conference contribution

SP - 453

EP - 462

BT - Proceedings of the Challenging Glass Conference 6 (CGC 6)

A2 - Louter, Christian

A2 - Bos, Freek

A2 - Belis, Jan

A2 - Veer, Fred

A2 - Nijsse, Rob

PB - Delft University of Technology

ER -

ID: 51426055