Biaxial loading of a plate containing a hole and two co-axial through cracks

Sulym, H.; Opanasovych, V.; Slobodian, M.; Yarema, Y.

doi:10.2478/ama-2018-0037

Artykuł - szczegóły

Tytuł artykułu

Biaxial loading of a plate containing a hole and two co-axial through cracks

Autorzy

Sulym H. , Opanasovych V. , Slobodian M. , Yarema Y.

Treść / Zawartość

Pełne teksty:

SULYM_OPANASOVYCH_SLOBODIAN_YAREMA Biaxial Loading of a Plate Containing.pdf

Pobierz

Identyfikatory

DOI

10.2478/ama-2018-0037

Warianty tytułu

Języki publikacji

Abstrakty

The paper presents the solution linear elasticity problem for an isotropic plate weakened by a hole and two co-axial cracks. The plate is exerted by uniform traction at infinity. The corresponding 2D problem is solved by the method of Kolosova-Muskhelishvili complex potentials. The method implies reduction of the problem to simultaneous singular integral equations (SIE) for the functions defined the region of the cracks and hole. For particular case the solution the SIE is obtained analytically in a closed form. A thorough analysis of the stress intensity factors (SIF) is carried out for various cases of the hole shape: penny-shaped, elliptical and rectangular.

Słowa kluczowe

isotropic plate co-axial cracks hole traction complex potential stress intensity factor

Wydawca

Oficyna Wydawnicza Politechniki Białostockiej

Czasopismo

Acta Mechanica et Automatica

Rocznik

2018

Tom

Vol. 12, no. 3

Strony

237--242

Opis fizyczny

Bibliogr. 40 poz., rys., wykr.

Twórcy

autor

Sulym H.

sulym@pb.edu.pl

Faculty of Mechanical Engineering, Bialystok University of Technology, ul. Wiejska 45C, 15-351 Bialystok, Poland

autor

Opanasovych V.

kafmech@franko.lviv.ua

Faculty of Mechanics and Mathematics, Department of Mechanics, Ivan Franko National University of Lviv, Universytetska Str., 1, 79000 Lviv, Ukraine

autor

Slobodian M.

slobkolia@gmail.com

Faculty of Mechanics and Mathematics, Department of Mechanics, Ivan Franko National University of Lviv, Universytetska Str., 1, 79000 Lviv, Ukraine

autor

Yarema Y.

evhenbro@gmail.com

Faculty of Mechanics and Mathematics, Department of Mechanics, Ivan Franko National University of Lviv, Universytetska Str., 1, 79000 Lviv, Ukraine

Bibliografia

1. Chau K.T., Wang Y.B. (1999), A new boundary integral formulation for plane elastic bodies containing cracks and holes, International Journal of Solids and Structures, 36(14), 2041–2074.
2. Chen Y.Z. (2011), Solution of multiple crack problem in a finite plate using an alternating method based on two kinds of integral equation, Engineering Analysis with Boundary Elements, 35(10), 1109–1115.
3. Chen Y.Z. (2012), Boundary integral equation method for two dissimilar elastic inclusions in an infinite plate, Engineering Analysis with Boundary Elements, 36(2), 137–146.
4. Chen Y.Z., Lin X.Y. (2005), Periodic group crack problems in an infinite plate, International Journal of Solids and Structures, 42(9-10), 2837–2850.
5. Chen Y.Z., Lin X.Y. (2010), Solutions of the interior and exterior boundary value problems in plane elasticity by using dislocation distribution layer, International Journal of Solids and Structures, 47(3- 4), 355–364.
6. Chen Y.Z., Wang Z.X., Lin X.Y. (2008), Crack front position and back position tichniques for evaluating the T-stress at crack tip using functions of a complex variable, Journal of Mechanics of Materials and Structure, 3(9), 1659–1673.
7. Felger J., Stein N., Becker W. (2017), Mixed-mode fracture in openhole composite plates of finite-width: An asymptotic coupled stress and energy approach, International Journal of Solids and Structures, 122–123, 14–24.
8. Gong S.X. (1994), Antiplane interaction of line crack with an arbitrarily located elliptical inclusion, Theoretical and Applied Fracture Mechanics, 20(3), 193–205.
9. Hajimohamadi M., Ghajar R. (2018), An analytical solution for the stress field and stress intensity factor in an infinite plane containing an elliptical hole with two unequal aligned cracks, Applied Mathematics and Mechanics, 39(8), 1103–1118.
10. Kaloerov S.A., Avdyushina Y.V., Myronenko A.B. (2013), Stress concentration in multiple isotropic plate, Naukova Dumka, Kyiv.
11. Kaminskii A.A. (1982), Brittle fracture near holes, Naukova Dumka, Kyiv.
12. Kosmodamianskiy A.S. (1975), The plane problem of the theory of elasticity for plates with holes, notches, projections, Vyshcha Shkola, Kyiv.
13. Kratochvil J., Becker W. (2011), Asymptotic analysis of stresses in an isotropic linear elastic plane or half-plane weakened by a finite number of holes, Archive of Applied Mechanics, 82(6), 743–754.
14. Kuliyev S.A. (2010), Uniform rotation of a polygonal plate weakened by two linear crack holes, Mechanics Research Communications, 37(2), 184–190.
15. Kushch V.I., Shmegera S.V., Buryachenko V.A. (2005), Interacting elliptic inclusions by the method of complex potentials, International Journal of Solids and Structures, 42(20), 5491–5512.
16. Kyt G.S., Krivcun M.G. (1983), Flat thermoelasticity problem for bodies with cracks, Naukova Dumka, Kyiv.
17. Liu S., Duan S. (2014), Analytical solutions of cracks emanating from an elliptic hole in an infinite plate under tension, Chinese Journal of Mechanical Engineering, 27(5), 1057–1063.
18. Lu A.-Z., Xu Z., Zhang N. (2017), Stress analytical solution for an infinite plane containing two holes, International Journal of Mechanical Sciences, 128–129, 224–234.
19. Maksymovych O., Illiushyn O. (2017), Stress calculation and optimization in composite plates with holes based on the modified integral equation method, Engineering Analysis with Boundary Elements, 83, 180–187.
20. Mogilevskaya S.G., Crouch S.L., Stolarski H.K. (2009), Interaction between a crack and a circular inhomogeneity with interface stiffness and tension, International Journal of Fracture, 159, 191.
21. Murakami Y. (1990), Handbook of stress intensity factor, Mir, Moscow.
22. Mushelishvili M.I. (1966), Some basic problems of the mathematical theory of elasticity, Nauka, Moscow.
23. Opanasovych V.K., Dorosh M. (2008), Combined bend with tension of plates weakened by two collinear cracks with contact of their faces, Bulletin of Lviv. Univ. Series meh.-mate, 68, 194–206.
24. Pan Z., Cheng Y., Liu J. (2013), Stress analysis of a finite plate with a rectangular hole subjected to uniaxial tension using modified stress functions, International Journal of Mechanical Sciences, 75, 265–277.
25. Panasyuk V.V., Savruk M.P., Datsishin A.P. (1976), Distribution of stresses around cracks in plates and shells, Naukova Dumka, Kyiv.
26. Perez N. (2016), Fracture mechanics, Springer International Publishing, Switzerland.
27. Savruk M, Kazberuk A. (2007), Stress intensity factors for diamondshaped hole in elastic plane under tension, Acta Mechanica et Automatica, 1(2), 45–48.
28. Savruk M.P, Osiv P.N, Prokopchuk I.V. (1989), Numerical analysis in plane problems of the crack theory, Naukova Dumka, Kyiv.
29. Savruk M.P. (1981), Two-dimensional problems of elasticity for bodies with cracks, Naukova Dumka, Kyiv.
30. Savruk M.P. (1988), The stress intensity factors in the bodies with cracks: a handbook. Fracture mechanics and strength of materials, Naukova Dumka, Kyiv.
31. Shao-Tzu C.H., Li H. C.-C. (2017), Boundary-based finite element method for two-dimensional anisotropic elastic solids with multiple holes and cracks, Engineering Analysis with Boundary Elements, 79, 13–22.
32. Staschuk N.G. (1993), Problems of mechanics of elastic bodies with crack-like defect, Naukova Dumka, Kyiv.
33. Sulym G.T. (2007), Fundamentals of the mathematical theory of thermoelastic equilibrium deformed solids with thin inclusions, Research and Publishing Center of Shevchenko, Lviv.
34. Theocaris P.S., Petrou L. (1989), From the rectangular hole to the ideal crack, International Journal of Solids and Structures, 25(3), 213–233.
35. Tsamasphyros G.J., Theotokoglou E.E., Filopoulos S.P. (2013), Study and solution of BEM-singular integral equation method in the case of concentrated loads, International Journal of Solids and Structures, 50(10), 1634–1645.
36. Wang H., Qin Q.-H. (2012), A new special element for stress concentration analysis of a plate with elliptical holes, Acta Mechanica, 223(6), 1323–1340.
37. Wang J., Crouch S.L., Mogilevskaya S.G. (2003), A complex boundary integral method for multiple circular holes in an infinite plane, Engineering Analysis with Boundary Elements, 27(8), 789–802.
38. Wang X.-F., Hasebe N. (2000), Bending of a thin plate containing a rigid inclusion and a crack, Engineering Analysis with Boundary Elements, 24(2), 145–153.
39. Zemlyanova A. (2007), Singular integral equations for a patch repair problem, International Journal of Solids and Structures, 44, 6860–6877.
40. Zeng X.-T., Lu A.-Z., Zhang N. (2018), Analytical stress solution for an infinite plate containing two oval holes, European Journal of Mechanics – A/Solids, 67, 291–304.

Typ dokumentu

Bibliografia

Identyfikator YADDA

bwmeta1.element.baztech-bbbc1197-1e6d-4c1f-a800-a3a94ac8ed74