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Adhesive Joint Fracture Under Combined Pulsed and Vibrational Loading. / Petrov, Yuri; Logachev, Andrey; Granichin, Nickolay; Volkov, Grigory.

Structural Integrity. Springer Nature, 2020. p. 100-105 (Structural Integrity; Vol. 16).

Research output: Chapter in Book/Report/Conference proceedingChapterpeer-review

Harvard

Petrov, Y, Logachev, A, Granichin, N & Volkov, G 2020, Adhesive Joint Fracture Under Combined Pulsed and Vibrational Loading. in Structural Integrity. Structural Integrity, vol. 16, Springer Nature, pp. 100-105, 1st Virtual European Conference on Fracture, VECF 2020, Virtual, Online, 29/06/20. https://doi.org/10.1007/978-3-030-47883-4_18

APA

Petrov, Y., Logachev, A., Granichin, N., & Volkov, G. (2020). Adhesive Joint Fracture Under Combined Pulsed and Vibrational Loading. In Structural Integrity (pp. 100-105). (Structural Integrity; Vol. 16). Springer Nature. https://doi.org/10.1007/978-3-030-47883-4_18

Vancouver

Petrov Y, Logachev A, Granichin N, Volkov G. Adhesive Joint Fracture Under Combined Pulsed and Vibrational Loading. In Structural Integrity. Springer Nature. 2020. p. 100-105. (Structural Integrity). https://doi.org/10.1007/978-3-030-47883-4_18

Author

Petrov, Yuri ; Logachev, Andrey ; Granichin, Nickolay ; Volkov, Grigory. / Adhesive Joint Fracture Under Combined Pulsed and Vibrational Loading. Structural Integrity. Springer Nature, 2020. pp. 100-105 (Structural Integrity).

BibTeX

@inbook{31c3618acba24cb58a8098836de75519,
title = "Adhesive Joint Fracture Under Combined Pulsed and Vibrational Loading",
abstract = "The strength of the adhesion joint under the combined vibrational-pulsed loading is considered. Beam and membrane models on elastic foundation is applied to simulate behavior of adhesion zone. The incubation time criterion is used to determine the threshold parameters of a load required to adhesive zone fracture. The solution of the differential equation describing the behavior of the adhesive zone is obtained by the Fourier method. Different types of combination of pulsed loading with high-frequency external fields are considered. It demonstrates that background vibration fields of even low intensity at certain frequencies can significantly reduce these critical values. The dependence of the threshold value of the external pulse on the model parameters is shown. The possible way to control to adhesive joint strength by background vibrational fields is suggested.",
keywords = "Adhesion zone, Elastic foundation, Incubation time criterion, Vibrational field",
author = "Yuri Petrov and Andrey Logachev and Nickolay Granichin and Grigory Volkov",
note = "Publisher Copyright: {\textcopyright} Springer Nature Switzerland AG 2020. Copyright: Copyright 2020 Elsevier B.V., All rights reserved.; 1st Virtual European Conference on Fracture, VECF 2020 ; Conference date: 29-06-2020 Through 01-07-2020",
year = "2020",
doi = "10.1007/978-3-030-47883-4_18",
language = "English",
series = "Structural Integrity",
publisher = "Springer Nature",
pages = "100--105",
booktitle = "Structural Integrity",
address = "Germany",

}

RIS

TY - CHAP

T1 - Adhesive Joint Fracture Under Combined Pulsed and Vibrational Loading

AU - Petrov, Yuri

AU - Logachev, Andrey

AU - Granichin, Nickolay

AU - Volkov, Grigory

N1 - Publisher Copyright: © Springer Nature Switzerland AG 2020. Copyright: Copyright 2020 Elsevier B.V., All rights reserved.

PY - 2020

Y1 - 2020

N2 - The strength of the adhesion joint under the combined vibrational-pulsed loading is considered. Beam and membrane models on elastic foundation is applied to simulate behavior of adhesion zone. The incubation time criterion is used to determine the threshold parameters of a load required to adhesive zone fracture. The solution of the differential equation describing the behavior of the adhesive zone is obtained by the Fourier method. Different types of combination of pulsed loading with high-frequency external fields are considered. It demonstrates that background vibration fields of even low intensity at certain frequencies can significantly reduce these critical values. The dependence of the threshold value of the external pulse on the model parameters is shown. The possible way to control to adhesive joint strength by background vibrational fields is suggested.

AB - The strength of the adhesion joint under the combined vibrational-pulsed loading is considered. Beam and membrane models on elastic foundation is applied to simulate behavior of adhesion zone. The incubation time criterion is used to determine the threshold parameters of a load required to adhesive zone fracture. The solution of the differential equation describing the behavior of the adhesive zone is obtained by the Fourier method. Different types of combination of pulsed loading with high-frequency external fields are considered. It demonstrates that background vibration fields of even low intensity at certain frequencies can significantly reduce these critical values. The dependence of the threshold value of the external pulse on the model parameters is shown. The possible way to control to adhesive joint strength by background vibrational fields is suggested.

KW - Adhesion zone

KW - Elastic foundation

KW - Incubation time criterion

KW - Vibrational field

UR - http://www.scopus.com/inward/record.url?scp=85086116947&partnerID=8YFLogxK

U2 - 10.1007/978-3-030-47883-4_18

DO - 10.1007/978-3-030-47883-4_18

M3 - Chapter

AN - SCOPUS:85086116947

T3 - Structural Integrity

SP - 100

EP - 105

BT - Structural Integrity

PB - Springer Nature

T2 - 1st Virtual European Conference on Fracture, VECF 2020

Y2 - 29 June 2020 through 1 July 2020

ER -

ID: 76244424