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Journal of Elasticity

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30-10-2018

Torsional Stresses Near the Bonded Interface of a Tube-to-Tube Connected Cylindrically Orthotropic Circular Shaft with Radial Inhomogeneity

Author: Chung-Hao Wang

Published in: Journal of Elasticity | Issue 1/2019

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Abstract

This study uncovers the stress distributions on or adjacent to the bonded interface connecting two sections in a circular shaft subjected to torsional shear loads on the surfaces of both ends. The material in each section is considered to be cylindrically orthotropic with radial inhomogeneity. The derived results in explicit expressions enable us to investigate the trends of variations in stress near the connecting interface due to the varying degree of material anisotropy, forms of end loads, and material inhomogeneity. According to the numerical results of the examples, when both end surfaces are subjected to radially power-distributed torsional shear loads, the interfacial influences on stress distributions will be strongly dependent on the degree of material anisotropy, and the maximum magnitudes of the torsional stresses near the interface can be effectively alleviated by properly introducing a radial inhomogeneity into the material and adjusting the forms of the end torsional loads, even though the end surfaces are sufficiently far from the interface. When one designs the structure of a tube-to-tube connected shaft subjected to torsional loads, besides paying attention to the maximum magnitude of the interfacial longitudinal shear stress, the transverse shear stress adjacent to the interface has to be considered, especially when one section possesses strong anisotropy.

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Solkolnikoff, I.S.: Mathematical Theory of Elasticity. McGraw-Hill, New York (1956)

Lekhnitskii, S.G.: Theory of Elasticity of an Anisotropic Body. Holden-Day, San Francisco (1963) MATH

Lekhnitskii, S.G.: Theory of Elasticity of an Anisotropic Body, 2nd edn. Mir, Moscow (1981) MATH

Ting, T.C.T.: New solutions to pressuring, shearing, torsion and extension of a circular tube or bar. Proc. R. Soc. A 455, 3527–3542 (1999) ADSMATHCrossRef

Dong, S.B., Kosmatka, J.B., Lin, H.C.: On Saint-Venant’s problem for an inhomogeneous, anisotropic cylinder—Part I: Methodology for Saint-Venant solutions. J. Appl. Mech. 68(3), 376–381 (2000) MATHCrossRef

Tarn, J.Q.: Exact solutions for functionally graded anisotropic cylinders subjected to thermal and mechanical loads. Int. J. Solids Struct. 38, 8189–8206 (2001) MATHCrossRef

Tarn, J.Q.: A state space formalism for anisotropic elasticity. Part two: Cylindrical anisotropy. Int. J. Solids Struct. 39, 5157–5172 (2002) MathSciNetMATHCrossRef

Tarn, J.Q., Chang, H.H.: Extension, torsion, bending, pressuring and shearing of piezoelectric circular cylinders with radial inhomogeneity. J. Intell. Mater. Syst. Struct. 16, 631–641 (2005) CrossRef

Chen, T., Wei, C.J.: Saint-Venant torsion of anisotropic shafts: Theoretical framework, extremal bounds and affine transformations. Q. J. Mech. Appl. Math. 58, 269–287 (2005) MathSciNetMATHCrossRef

10.

Iesan, D.: On the torsion of inhomogeneous and anisotropic bars. Math. Mech. Solids 17(8), 848–859 (2012) MathSciNetCrossRef

11.

Ecsedi, I.: Some analytical solutions for Saint-Venant torsion of non-homogeneous anisotropic cylindrical bars. Mech. Res. Commun. 52, 95–100 (2013) CrossRef

12.

Sun, X.S., Tan, V.B.C., Chen, Y., Tan, L.B., Jaiman, R.K., Tay, T.E.: Stress analysis of multi-layered hollow anisotropic composite cylindrical structures using the homogenization method. Acta Mech. 225, 1649–1672 (2014) MathSciNetMATHCrossRef

13.

Goldstein, R.V., Gorodtsov, V.A., Lisovenko, D.S., Volkov, M.A.: Two-layered tubes from cubic crystals: Auxetic tubes. Phys. Status Solidi B, Basic Solid State Phys. 254(12), 1600815 (2017) ADSCrossRef

14.

Goldstein, R.V., Gorodtsov, V.A., Lisovenko, D.S.: Mesomechanics of multiwall carbon nanotubes and nanowhiskers. Phys. Mesomech. 12(1–2), 38–53 (2009) CrossRef

15.

Goldstein, R.V., Gorodtsov, V.A., Lisovenko, D.S., Volkov, M.A.: Negative Poisson’s ratio for cubic crystals and nano/microtubes. Phys. Mesomech. 17(2), 97–115 (2014) CrossRef

16.

Goldstein, R.V., Gorodtsov, V.A., Lisovenko, D.S.: Poynting’s effect of cylindrically anisotropic nano/microtubes. Phys. Mesomech. 19(3), 229–238 (2016) CrossRef

17.

Goldstein, R.V., Gorodtsov, V.A., Lisovenko, D.S., Volkov, M.A.: Auxeticity in nano/microtubes produced from orthorhombic crystals. Smart Mater. Struct. 25, 054006 (2016) ADSCrossRef

18.

Goldstein, R.V., Gorodtsov, V.A., Lisovenko, D.S.: Chiral elasticity of nano/microtubes from hexagonal crystals. Acta Mech. 229(5), 2189–2201 (2018) MathSciNetMATHCrossRef

19.

Horgan, C.O.: Some remarks on Saint-Venant’s principle for transversely isotropic composites. J. Elast. 2, 335–339 (1972) CrossRef

20.

Tarn, J.Q., Chang, H.H.: Torsion of cylindrically orthotropic elastic circular bars with radial inhomogeneity: Some exact solutions and end effects. Int. J. Solids Struct. 45, 303–319 (2008) MATHCrossRef

21.

Alpdogan, C., Dong, S.B., Taciroglu, E.: A method of analysis for end and transitional effects in anisotropic cylinders. Int. J. Solids Struct. 47, 947–956 (2010) MATHCrossRef

22.

Lomakin, E.V.: Torsion of rods with elastic properties depending on the stress state type. Mech. Solids 37(4), 23–30 (2002)

23.

Lomakin, E.V.: Torsion of cylindrical bodies with varying strain properties. Mech. Solids 43(3), 502–511 (2008) ADSCrossRef

24.

Wang, C.H.: Some end effects in a cylindrically orthotropic circular tube of finite length with radial inhomogeneity subjected to torsional loads. Acta Mech. 226, 1707–1723 (2015) MathSciNetMATHCrossRef

25.

Miller, K.L., Horgan, C.O.: Saint-Venant end effects for plane deformations of elastic composites. Mech. Compos. Mater. Struct. 2, 203–214 (1995) CrossRef

26.

Sonsino, C.M., Łagoda, T.: Assessment of multiaxial fatigue behaviour of welded joints under combined bending and torsion by application of a fictitious notch radius. Int. J. Fatigue 26, 265–279 (2004) MATHCrossRef

27.

Portillo, P., Kreiner, J., Lancey, T.: Torsional fatigue behavior of adhesively joined tubes. J. Mater. Process. Technol. 191, 339–341 (2007) CrossRef

28.

Mahamood, R.M., Akinlabi, E.T., Shukla, M., Pityana, S.: Functionally graded material: An overview. In: Proceedings of the World Congress on Engineering 2012 (WCE 2012), vol. III, London (2012)

29.

Watanabe, Y., Inaguma, Y., Sato, H., Miura-Fujiwara, E.A.: Novel fabrication method for functionally graded materials under centrifugal force: The centrifugal mixed-powder method. Materials 2(4), 2510–2525 (2009) ADSCrossRef

30.

Korenev, B.G.: Bessel Functions and Their Applications. CRC Press, Boca Raton (2002) MATH

31.

Alshits, V.I., Kirchner, H.O.K.: Cylindrically anisotropic, radially inhomogeneous elastic materials. Proc. R. Soc. Lond. A 457, 671–693 (2001) ADSMATHCrossRef

32.

Keles, I., Tutuncu, N.: Exact analysis of axisymmetric dynamic response of functionally graded cylinders (or disks) and spheres. J. Appl. Mech. 78(6), 061014 (2011) ADSCrossRef

33.

Watson, G.N.: A Treatise on the Theory of Bessel Functions. Cambridge University Press, Cambridge (1995) MATH

34.

Michell, J.H.: The uniform torsion and flexure of incomplete tores, with application to helical springs. Proc. Lond. Math. Soc. 31, 130–146 (1899) MathSciNetMATH

35.

Tarn, J.Q., Chen, W.Q.: Connection between static electromagnetoelasticity and anisotropic elasticity and its applications. Int. J. Solids Struct. 43, 4957–4970 (2006) MathSciNetMATHCrossRef

36.

Chang, H.H., Tarn, J.Q.: A state space formalism and perturbation method for generalized thermoelasticity of anisotropic bodies. Int. J. Solids Struct. 44, 956–975 (2007) MATHCrossRef

37.

Tarn, J.Q., Chang, H.H.: A refined state space formalism for piezothermoelasticity. Int. J. Solids Struct. 45, 3021–3132 (2008) MATHCrossRef

Title: Torsional Stresses Near the Bonded Interface of a Tube-to-Tube Connected Cylindrically Orthotropic Circular Shaft with Radial Inhomogeneity
Author: Chung-Hao Wang
Publication date: 30-10-2018
Publisher: Springer Netherlands
Published in: Journal of Elasticity / Issue 1/2019
Print ISSN: 0374-3535
Electronic ISSN: 1573-2681
DOI: https://doi.org/10.1007/s10659-018-9705-2

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