Abstract
In this paper, the interfacial behavior of a thin two-dimensional decagonal quasicrystal (QC) film bonded on an elastic substrate is investigated due to a material mismatch strain under thermal variation. The non-slipping contact condition is assumed at interface. The Fourier transform technique is used to transfer the problem as an integral equation in terms of the phonon interfacial shear stress, which can be numerically solved by introducing the series expansion of Chebyshev polynomials. The expressions are explicitly presented for the phonon interfacial shear and internal normal stresses, the horizontal displacement of QC film, and the stress intensity factors. In the numerical calculation, the effects of material mismatch, the geometry of QC film, and temperature variation on the stresses, displacement and stress intensity factors are briefly discussed. It is expected that the results will be helpful to the design and safety assessment of a QC film/substrate system in engineering applications.
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References
Akisanya AR, Fleck NA (1994) The edge cracking and decohesion of thin films. Int J Solids Struct 31(23):3175–3199
Alaca BE, Saif MTA, Sehitoglu H (2002) On the interface bonded at the edge of a thin film on a thick substrate. Acta Mater 50(5):1197–1209
Archambault P, Janot C (1997) Thermal conductivity of quasicrystals and associated process. MRS Bull 22(11):48–53
Arutiunian NK (1968) Contact problem for a half-plane with elastic reinforcement. PMM-J Appl Math Mech 32(4):632–646
Balbyshev VN, King DJ, Khramov AN, Kasten LS, Donley MS (2004) Investigation of quaternary Al-based quasicrystal thin films for corrosion protection. Thin Solid Films 447–448:558–563
Chattopadhyay K, Lele S, Ranganathan S, Subbanna GN, Thangaraj N (1985) Electron microscopy of quasi-crystals and related structures. Curr Sci 54:895–903
Chen PJ, Chen SH, Yao Y (2016) Nonslipping contact between a mismatch film and a finite-thickness graded substrate. J Appl Mech 83:021007
Chen PJ, Chen SH, Guo W, Gao F (2018a) The interface behavior of a thin piezoelectric film bonded to a graded substrate. Mech Mater 127:26–38
Chen PJ, Peng J, Liu H, Gao F, Guo W (2018b) The electromechanical behavior of a piezoelectric actuator bonded to a graded substrate including an adhesive layer. Mech Mater 123:77–87
Chen PJ, Chen SH, Peng J, Gao F, Liu H (2019) The interface behavior of a thin film bonded imperfectly to a finite thickness gradient substrate. Eng Fract Mech 217:106529
Cui YJ, Wang KF, Wang BL, Wang P (2018) Analysis of thermally induced delamination of thermoelectric thin film/substrate system. Int J Fract 214:201–208
Dubois JM (2012) Properties and applications of quasicrystals and complex metallic alloys. Chem Soc Rev 41(20):6767–6777
Dubois JM, Kang SS, Stebut J (2012) Quasicrystalline low-friction coatings. J Mater Sci Lett 10(9):537–541
Erdogan F, Gupta GD (1971) The problem of an elastic stiffener bonded to a half-plane. ASME J Appl Mech 38:937–941
Fan TY (2013) Mathematical theory and methods of mechanics of quasicrystalline materials. Engineering-PRC 5(4):407–448
Fan TY, Xie LY, Fan L, Wang QZ (2011) Interface of quasicrystal and crystal. Chinese Phys B 20(7):076102
Guler MA (2008) Mechanical modeling of thin films and cover plates bonded to graded substrates. ASME J Appl Mech 75(5):051105
Guler MA, Gulver YF, Nart E (2012) Contact analysis of thin films bonded to graded coatings. Int J Mech Sci 55(1):50–64
Guo JH, Yu JY, Xing YM, Pan E, Li LH (2016) Thermoelastic analysis of a two-dimensional decagonal quasicrystal with a conductive elliptic hole. Acta Mech 227(9):2595–2607
Guo JH, Sun TY, Pan E (2020) Three-dimensional nonlocal buckling of composite nanoplates with coated one-dimensional quasicrystal in an elastic medium. Int J Solids Struct 185–186:272–280
Jin C, Wang X (2011) Analytical modelling of the electromechanical behavior of surface-bonded piezoelectric actuators including the adhesive layer. Eng Fract Mech 78:2547–2562
Kanjilal A, Tiwari U, Chatterjee R (2002) Preparation of Al-Cu-Fe thin films by vapor deposition technique from a single source. Mater Res Bull 37(2):343–351
Kenzari S, Bonina D, Dubois JM, Fournee V (2012) Quasicrystal-polymer composites for selective laser sintering technology. Mater Des 35:691–695
Lanzoni L, Radi E (2009) Thermally induced deformations in a partially coated elastic layer. Int J Solids Struct 46:1402–1412
Li LH, Yun GH (2014) Thermal stress analysis for octagonal quasicrystals. J Thermal Stresses 37(4):429–439
Melnichenko T, Polishchuk S, Ustinov A, Merstallinger MG, Telychko V (2016) Fabrication of thick, crack-free quasicrystalline Al-Cu-Fe coatings by electron-beam deposition. Surf Coat Tech 291:406–412
Muskhelishvili NI (1953) Some basic problems of the mathematical theory of elasticity. Noordhoff, Groningen
Parsamehr H, Chang SY, Lai CH (2018) Mechanical and surface properties of aluminum-copper-iron quasicrystal thin films. J Alloy Compd 732:952–957
Parsamehr H, Yang CL, Liu WT, Chen SW, Lai CH (2019) Direct observation of growth and stability of Al-Cu-Fe quasicrystal thin film. Acta Mater 174:1–8
Phillips BS, Zabinski JS (2003) Frictional characteristics of quasicrystals at high temperatures. Tribol Lett 15(1):57–64
Shield TW, Kim KS (1992) Beam theory models for thin film segments cohesively bonded to an elastic half space. Int J Solids Struct 29(9):1085–1103
Srinivas MV, Ravichandran G (1994) Interfacial crack propagation in a thin viscoelastic film bonded to an elastic substrate. Int J Fract 65:31–47
Torun H, Urey H (2006) Thermal deflections in multilayer microstructures and a thermalization. J Appl Phys 100:023527
Ushakov AV, Karpov IV, Fedorov LY, Shaikhadinov AA, Demin VG, Demchenko AI, Goncharova EA, Zeer GM (2019) Synthesis of quasicrystalline powders and coatings by vacuum arc phasma evaporation. Phys Solid State 61:2547–2552
Ustinov AI, Movchan BA, Polishchuk SS (2003) Formation of nanoquasicrystalline Al-Cu-Fe coatings at electron beam physical vapour deposition. Scripta Mater 50(4):533–537
Wang XD, Meguid SA (2000) On the electroelastic behaviour of a thin piezoelectric actuator attached to an infinite host structure. Int J Solids Struct 37:3231–3251
Yadav TP, Singh D, Shahi RR, Shaz MA, Tiwari RS, Srivastava OS (2013) Synthesis of quasicrystalline film of Al-Ga-Pd-Mn alloy. Thin Solid Films 534:265–269
Yang LZ, Gao Y, Pan E, Waksmanski N (2014) An exact solution for a multilayered two-dimensional decagonal quasicrystal plate. Int J Solids Struct 51(9):1737–1749
Yu HH, He MY, Hutchinson JW (2001) Edge effects in thin film delamination. Acta Mater 49(1):93–107
Zhang Z, Urban K (1989) Transmission electron microscope observation of dislocation and stacking faults in a decagonal Al-Cu-Co alloy. Philos Mag Lett 60(3):97–102
Zhang X, Fan CY, Lu CS, Zhao MH, Dang HY (2023) Three-dimensional thermal fracture analysis of a one-dimensional hexagonal quasicrystal coating with interface cracks. Eng Fract Mech 277:108994
Zhao MH, Fan CY, Lu CS, Dang HY (2021) Interfacial fracture analysis for a two-dimensional decagonal quasi-crystal coating layer structure. Appl Math Mech Engl Ed 42(11):1633–1648
Zhou CG, Xu HB, Gong SK, Kang GM (2002) Formation and oxidation behavior of Al-Cu-Fe quasicrystals. J Mater Sci Technol 18:251–253
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This work was supported by the National Natural Science Foundation of China (No. 11902293) and the China Postdoctoral Science Foundation (No. 2019M652563).
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DQ: numerical calculation and prepared figures; HD conducted the main analysis and wrote the main manuscript text; MZ and CF supervised the study; CL reviewed the manuscript.
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Dang, H., Qi, D., Zhao, M. et al. The thermally induced interfacial behavior of a thin two-dimensional decagonal quasicrystal film. Int J Fract (2023). https://doi.org/10.1007/s10704-023-00698-8
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DOI: https://doi.org/10.1007/s10704-023-00698-8