Numerical study of cracking a medium elastic iscoplastique of polyacetal

Reffas, Sid Ahmed; Benguidiab, Mohamed; Sikula, Ondrej; Adjlout, Houari; Lebbal, Habib

doi:10.2478/mme-2019-0017

Artykuł - szczegóły

Tytuł artykułu

Numerical study of cracking a medium elastic iscoplastique of polyacetal

Autorzy

Reffas Sid Ahmed , Benguidiab Mohamed , Sikula Ondrej , Adjlout Houari , Lebbal Habib

Wybrane pełne teksty z tego czasopisma

http://kdm.p.lodz.pl/journal-mechanics-and-mechanical-engng/artykuly#

Identyfikatory

DOI

10.2478/mme-2019-0017

Warianty tytułu

Języki publikacji

Abstrakty

The objective of this work is the analysis of the fracture behavior of a SENB cylinder with a defect where stress triaxiality is more severe. Numerical simulations are carried out in a 2D mode, to overcome a disadvantageous hypothesis plane strain or plane stress. The mesh sensitivity studies were also undertaken but are not presented here. Indeed, only the results for the most relevant mesh are the subject of the discussion.

Słowa kluczowe

fracture mechanics crack propagation J-integral statics polyaceétal

mechanika pękania propagacja pęknięcia całka J statyka

Wydawca

Wydawnictwo Politechniki Łódzkiej

Czasopismo

Mechanics and Mechanical Engineering

Rocznik

2019

Tom

Vol. 23, nr 1

Strony

125--129

Opis fizyczny

Bibliogr. 22 poz., 1 il. kolor., 1 rys., wykr.

Twórcy

autor

Reffas Sid Ahmed

reffas_ahmed@yahoo.fr

Department of Engineering Mechanics, Mohamed Boudiaf University of Oran, Algeria

autor

Benguidiab Mohamed

benguediabm@gmail.com

Department of Engineering Mechanics, Djillali Liabes University of Sidi bel abbes, Algeria

autor

Sikula Ondrej

sikula.o@vutbr.cz

Department of Engineering civil, University of technologie Brno, Tcheque

autor

Adjlout Houari

adjloutl@yahoo.fr

Department of Engineering Mechanics, Mohamed Boudiaf University of Oran, Algeria

autor

Lebbal Habib

Department of Engineering Mechanics, Mohamed Boudiaf University of Oran, Algeria

Bibliografia

[1] Salavati, H.Y., Alizadeh and Berto, F.: Application the mechanism based strain gradient plasticity theory to model the hot deformation behavior of functionally graded steels, 2014.
[2] Haward, R.N., Young, R.J.: The physics of glassy polymers, Chapman & Hall, London, 1997.
[3] Elmeguenni, M., Naït, A., Zaïri, F and Gloaguen, J. M.: Fracture characterization of high- density polyethylene pipe materials using the J-integral and the essential work of fracture, 2013.
[4] Seref, D.A.: Analytical solutions for static bending of edge cracked micro beams, Structural Engineering and Mechanics, 2016.
[5] Venkata, R.K., Raja, S.: Finite element modeling and bending analysis of piezoelectric sandwich beam with debonded actuators, Smart Structures and Systems, 2014.
[6] Wolfgang, G., Sabine, S.: Mechanical Properties of Polymers Polymer Testing, (Second Edition), 73-231, 2013.
[7] Laiarinandrasana, L., all.: Damage based model to study the effect of notch introduction technique on the J-integral value of PolyOxyMethylene, Engineering Fracture Mechanics, 214-229, 2015.
[8] Williams, J.G.: Fracture mechanics of polymers. Polym. Eng. Sci, 144-149, 1977.
[9] Vu-Khanh, T., Fisa. B.: Fracture behavior of mica-reinforced Polypropylene: Effects of coupling agent, flake orientation, and degradation. Polym. Compos, 1986.
[10] Kicheni, J.: Comportement thermomécanique du polyéthylène : Application aux structures gazières. Thèse, Ecole Polytechnique, France, 1992.
[11] Paquin, A., Berveiller. M.: Différentes voies pour la modélisation micromécanique du com-portement élastoviscoplastique des polymères semi-cristallins. Les cahiers de rhéologie, GFRRhéologie et structure, 1996.
[12] Ouakka, A., Dang Van, K., Gueugnaut, D and Blouet. P.: An assessment of the defects damages in Polyethylene gaz pipes. 10th Int. Conf. on deformation, Yield and fracture of polymers, the chameleon press LDT, Cambridge, 557-560, 1997.
[13] Mokaddem, A., Alami,Mand Boutaous, A.: Stability condition for the evaluation of damage in three-point bending of a laminated composite, Steel and Composite Structures J., 2013.
[14] Elamary, A., Abd-El Wahab, R.: Numerical simulation of concrete beams reinforced with composite GFRP-Steel bars under three Points bending, Structural Engineering and Mechanics, 2016.
[15] Hoon Kang, J.: Vibration analysis of free-fixed hyperbolic cooling tower shells, Structural Engineering and Mechanics, AN INT’L J., 2015.
[16] Rice. J.R.: Mathematical analysis in the mechanics of fracture, in: Fracture, ed. H. Liebowitz, Academic Press, 192-308, 1968.
[17] Begley, J.A., Landes, J.D.: ASTM STP, 514, 1972.
[18] Rice, J.R., Paris, P.C and Merkle, J.G.: Some further results of J-integral analysis and estimates, 231-243, 1972.
[19] Sumpter., Turner and Sumpter, J.D.: C.E. Turner. Int, , J. Fract., 9, 320, 1973.
[20] Clarke, G.A., Landes, J.D.: Evaluation of the J-integral for the compact specimen, J. Test., 264-269, 1979.
[21] Sumpter, J.D., Sumpter. J.C.: determination for shallow notch welded bend specimens, Fa-tigue Fract. Eng. Mater., 479-493, 1987.
[22] Sharobeam, M.H., Landes, J.D.: The load separation criterion and methodology in ductile fracture mechanics, Int. J., Fract, 47, 81-104, 1991.

Uwagi

Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2019).

Typ dokumentu

Bibliografia

Identyfikator YADDA

bwmeta1.element.baztech-a5991df1-d1ed-4752-b63e-a6fb7603ec27