Standard

Evaluation of Fracture Incubation Time from Quasistatic tensile strength Experiment. / Kazarinov, N.A.; Bratov, V.A.; Petrov, Yu.V.; Fedorovsky, G.D.

In: Materials Physics and Mechanics, Vol. 19, 2014, p. 16-24.

Research output: Contribution to journalArticlepeer-review

Harvard

Kazarinov, NA, Bratov, VA, Petrov, YV & Fedorovsky, GD 2014, 'Evaluation of Fracture Incubation Time from Quasistatic tensile strength Experiment', Materials Physics and Mechanics, vol. 19, pp. 16-24. <http://www.ipme.ru/e-journals/MPM/no_11914/MPM119_03_kazarinov.pdf>

APA

Kazarinov, N. A., Bratov, V. A., Petrov, Y. V., & Fedorovsky, G. D. (2014). Evaluation of Fracture Incubation Time from Quasistatic tensile strength Experiment. Materials Physics and Mechanics, 19, 16-24. http://www.ipme.ru/e-journals/MPM/no_11914/MPM119_03_kazarinov.pdf

Vancouver

Kazarinov NA, Bratov VA, Petrov YV, Fedorovsky GD. Evaluation of Fracture Incubation Time from Quasistatic tensile strength Experiment. Materials Physics and Mechanics. 2014;19:16-24.

Author

Kazarinov, N.A. ; Bratov, V.A. ; Petrov, Yu.V. ; Fedorovsky, G.D. / Evaluation of Fracture Incubation Time from Quasistatic tensile strength Experiment. In: Materials Physics and Mechanics. 2014 ; Vol. 19. pp. 16-24.

BibTeX

@article{60bf5e0b9f5b472198eb03eb49698b43,
title = "Evaluation of Fracture Incubation Time from Quasistatic tensile strength Experiment",
abstract = "Incubation time being the main characteristic parameter for dynamic fracture process is experimentally measured for PMMA utilizing optical methods. The specimen is quasistatically loaded in standard tensile testing machine until brittle fracture occurs when the sample is split into two parts. Normally this splitting of brittle materials is accompanied by the impact unloading of the sample. In considered tests tensioned samples were dynamically unloaded by stress drop wave, generated by fracture process and registered by photoelasticity technique at a certain distance from breaking line. The same experiment is simulated using ANSYS FEM software package and the incubation time is evaluated numerically. The simulation results are in a good coincidence with experimental measurements, proving the applicability of the proposed simple method for brittle fracture incubation time measurements.",
keywords = "Dynamic fracture process, incubation time, photoelasticity quasistatically testing, simulation by ANSYS FEM.",
author = "N.A. Kazarinov and V.A. Bratov and Yu.V. Petrov and G.D. Fedorovsky",
year = "2014",
language = "English",
volume = "19",
pages = "16--24",
journal = "ФИЗИКА И МЕХАНИКА МАТЕРИАЛОВ",
issn = "1605-8119",
publisher = "Институт проблем машиноведения РАН",

}

RIS

TY - JOUR

T1 - Evaluation of Fracture Incubation Time from Quasistatic tensile strength Experiment

AU - Kazarinov, N.A.

AU - Bratov, V.A.

AU - Petrov, Yu.V.

AU - Fedorovsky, G.D.

PY - 2014

Y1 - 2014

N2 - Incubation time being the main characteristic parameter for dynamic fracture process is experimentally measured for PMMA utilizing optical methods. The specimen is quasistatically loaded in standard tensile testing machine until brittle fracture occurs when the sample is split into two parts. Normally this splitting of brittle materials is accompanied by the impact unloading of the sample. In considered tests tensioned samples were dynamically unloaded by stress drop wave, generated by fracture process and registered by photoelasticity technique at a certain distance from breaking line. The same experiment is simulated using ANSYS FEM software package and the incubation time is evaluated numerically. The simulation results are in a good coincidence with experimental measurements, proving the applicability of the proposed simple method for brittle fracture incubation time measurements.

AB - Incubation time being the main characteristic parameter for dynamic fracture process is experimentally measured for PMMA utilizing optical methods. The specimen is quasistatically loaded in standard tensile testing machine until brittle fracture occurs when the sample is split into two parts. Normally this splitting of brittle materials is accompanied by the impact unloading of the sample. In considered tests tensioned samples were dynamically unloaded by stress drop wave, generated by fracture process and registered by photoelasticity technique at a certain distance from breaking line. The same experiment is simulated using ANSYS FEM software package and the incubation time is evaluated numerically. The simulation results are in a good coincidence with experimental measurements, proving the applicability of the proposed simple method for brittle fracture incubation time measurements.

KW - Dynamic fracture process

KW - incubation time

KW - photoelasticity quasistatically testing

KW - simulation by ANSYS FEM.

M3 - Article

VL - 19

SP - 16

EP - 24

JO - ФИЗИКА И МЕХАНИКА МАТЕРИАЛОВ

JF - ФИЗИКА И МЕХАНИКА МАТЕРИАЛОВ

SN - 1605-8119

ER -

ID: 7010397