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NUMERICAL INVESTIGATION OF STRESS INTENSITY FACTOR - CRACK VELOCITY RELATION FOR A DYNAMICALLY PROPAGATING CRACK. / Kazarinov, N. A.; Petrov, Y. V.; Bratov, V. A.; Slesarenko, V. Yu.

в: Materials Physics and Mechanics, Том 29, № 1, 2016, стр. 39-42.

Результаты исследований: Научные публикации в периодических изданияхстатьяРецензирование

Harvard

Kazarinov, NA, Petrov, YV, Bratov, VA & Slesarenko, VY 2016, 'NUMERICAL INVESTIGATION OF STRESS INTENSITY FACTOR - CRACK VELOCITY RELATION FOR A DYNAMICALLY PROPAGATING CRACK', Materials Physics and Mechanics, Том. 29, № 1, стр. 39-42.

APA

Kazarinov, N. A., Petrov, Y. V., Bratov, V. A., & Slesarenko, V. Y. (2016). NUMERICAL INVESTIGATION OF STRESS INTENSITY FACTOR - CRACK VELOCITY RELATION FOR A DYNAMICALLY PROPAGATING CRACK. Materials Physics and Mechanics, 29(1), 39-42.

Vancouver

Kazarinov NA, Petrov YV, Bratov VA, Slesarenko VY. NUMERICAL INVESTIGATION OF STRESS INTENSITY FACTOR - CRACK VELOCITY RELATION FOR A DYNAMICALLY PROPAGATING CRACK. Materials Physics and Mechanics. 2016;29(1):39-42.

Author

Kazarinov, N. A. ; Petrov, Y. V. ; Bratov, V. A. ; Slesarenko, V. Yu. / NUMERICAL INVESTIGATION OF STRESS INTENSITY FACTOR - CRACK VELOCITY RELATION FOR A DYNAMICALLY PROPAGATING CRACK. в: Materials Physics and Mechanics. 2016 ; Том 29, № 1. стр. 39-42.

BibTeX

@article{4f4222e62e084a138ca1676f7c77e0db,
title = "NUMERICAL INVESTIGATION OF STRESS INTENSITY FACTOR - CRACK VELOCITY RELATION FOR A DYNAMICALLY PROPAGATING CRACK",
abstract = "In this paper incubation time fracture criterion is applied to perform numerical investigation of relation between stress intensity factor (SIF) and crack velocity observed in experiments by J.F. Kalthoff [1] for Araldite B. Two sample geometries were studied - double cantilever beam (DCB) and single edge notched sample (SEN). Quasistatic loading of these samples revealed existence of two branches of stress intensity factor - crack speed dependence corresponding to each sample geometry. Finite element method was used to perform numerical simulations of experiments by J.F Kalthoff and to study non-unique SIF - crack speed dependence.",
author = "Kazarinov, {N. A.} and Petrov, {Y. V.} and Bratov, {V. A.} and Slesarenko, {V. Yu.}",
year = "2016",
language = "Английский",
volume = "29",
pages = "39--42",
journal = "ФИЗИКА И МЕХАНИКА МАТЕРИАЛОВ",
issn = "1605-8119",
publisher = "Институт проблем машиноведения РАН",
number = "1",

}

RIS

TY - JOUR

T1 - NUMERICAL INVESTIGATION OF STRESS INTENSITY FACTOR - CRACK VELOCITY RELATION FOR A DYNAMICALLY PROPAGATING CRACK

AU - Kazarinov, N. A.

AU - Petrov, Y. V.

AU - Bratov, V. A.

AU - Slesarenko, V. Yu.

PY - 2016

Y1 - 2016

N2 - In this paper incubation time fracture criterion is applied to perform numerical investigation of relation between stress intensity factor (SIF) and crack velocity observed in experiments by J.F. Kalthoff [1] for Araldite B. Two sample geometries were studied - double cantilever beam (DCB) and single edge notched sample (SEN). Quasistatic loading of these samples revealed existence of two branches of stress intensity factor - crack speed dependence corresponding to each sample geometry. Finite element method was used to perform numerical simulations of experiments by J.F Kalthoff and to study non-unique SIF - crack speed dependence.

AB - In this paper incubation time fracture criterion is applied to perform numerical investigation of relation between stress intensity factor (SIF) and crack velocity observed in experiments by J.F. Kalthoff [1] for Araldite B. Two sample geometries were studied - double cantilever beam (DCB) and single edge notched sample (SEN). Quasistatic loading of these samples revealed existence of two branches of stress intensity factor - crack speed dependence corresponding to each sample geometry. Finite element method was used to perform numerical simulations of experiments by J.F Kalthoff and to study non-unique SIF - crack speed dependence.

M3 - статья

VL - 29

SP - 39

EP - 42

JO - ФИЗИКА И МЕХАНИКА МАТЕРИАЛОВ

JF - ФИЗИКА И МЕХАНИКА МАТЕРИАЛОВ

SN - 1605-8119

IS - 1

ER -

ID: 9709795