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W3195341676 endingPage "415" @default.
W3195341676 startingPage "367" @default.
W3195341676 abstract "Functionally graded material (FGM) concept has been applied successfully in order to improve/design heat transfer, electric and electronic conductivity, static and dynamic strengths of adhesive joints by reliving stress distributions in both adhesive and adherend materials. This new approach relies on tailoring material composition of adhesive and adherends along one or more coordinate directions. Thermal residual stresses in adhesive joints are a vital issue in terms of the joint strength. FGM concept also allows to relieve/control thermal residual stresses encountered in adhesive joints due to mismatches between coefficients of thermal expansion of adhesive and adherend materials. Mathematical models and solutions on the thermal residual stress analysis have been continuously improved. This paper reviews the current status of mathematical models, and offers an improved mathematical model and numerical solution method by considering two-dimensional thermal stress and deformation states of adhesively bonded bi-directional functionally graded clamped plates subjected to an in-plane heat flux along one of the ceramic edges. This mathematical model assumes the material properties of the functionally graded plates to vary with a power law along two in-plane directions and not through the plate thickness direction, in particular, considers the spatial derivatives of thermal and mechanical properties of the material, and enables the investigation of the effects of the bi-directional composition variations and spatial derivative terms on the displacement, strain and stress distributions. The heat conduction and Navier equations describing the two-dimensional thermo-elastic problem are discretized using finite-difference method, and the set of linear equations are solved using the pseudo singular value method. The functionally graded plates relieve both stress and strain distributions and levels in the adhesive layer and in the plates even though the adhesive layer is still ungraded. The spatial derivatives of mechanical and thermal properties of the local material become more effective on the strain and stress distributions of the plates and adhesive layer. The model, disregarding these derivative terms, exhibits sensitivity to small changes in the compositional gradients (n, m) by adjusting the variations of ceramic volume fraction along the x- and y-directions, respectively, and instability in the calculation of stress and strain distributions and levels. However, the improved model with material derivatives, which considers the effects of these derivative terms, predicts stress and strain distributions and levels complying with changes in the compositional gradient exponents." @default.
W3195341676 created "2021-08-30" @default.
W3195341676 creator A5020043144 @default.
W3195341676 creator A5060551766 @default.
W3195341676 date "2020-08-14" @default.
W3195341676 modified "2023-10-12" @default.
W3195341676 title "Improved Mathematical Models of Thermal Residual Stresses in Functionally Graded Adhesively Bonded Joints" @default.
W3195341676 cites W1434624942 @default.
W3195341676 cites W1966631585 @default.
W3195341676 cites W1967969464 @default.
W3195341676 cites W1968399029 @default.
W3195341676 cites W1969581447 @default.
W3195341676 cites W1971844758 @default.
W3195341676 cites W1973534940 @default.
W3195341676 cites W1975031291 @default.
W3195341676 cites W1982292428 @default.
W3195341676 cites W1993965613 @default.
W3195341676 cites W1996629605 @default.
W3195341676 cites W1997372248 @default.
W3195341676 cites W1998227435 @default.
W3195341676 cites W2002529740 @default.
W3195341676 cites W2003491972 @default.
W3195341676 cites W2006478514 @default.
W3195341676 cites W2015799030 @default.
W3195341676 cites W2017778997 @default.
W3195341676 cites W2018858346 @default.
W3195341676 cites W2020923274 @default.
W3195341676 cites W2024650778 @default.
W3195341676 cites W2025061841 @default.
W3195341676 cites W2029059477 @default.
W3195341676 cites W2038289383 @default.
W3195341676 cites W2038691629 @default.
W3195341676 cites W2042391760 @default.
W3195341676 cites W2045541799 @default.
W3195341676 cites W2046646889 @default.
W3195341676 cites W2047650209 @default.
W3195341676 cites W2048164121 @default.
W3195341676 cites W2054143712 @default.
W3195341676 cites W2055436628 @default.
W3195341676 cites W2058500136 @default.
W3195341676 cites W2058891203 @default.
W3195341676 cites W2062051452 @default.
W3195341676 cites W2062731016 @default.
W3195341676 cites W2063392730 @default.
W3195341676 cites W2065419386 @default.
W3195341676 cites W2067126321 @default.
W3195341676 cites W2072954894 @default.
W3195341676 cites W2073005612 @default.
W3195341676 cites W2074310922 @default.
W3195341676 cites W2074887242 @default.
W3195341676 cites W2078157118 @default.
W3195341676 cites W2080214376 @default.
W3195341676 cites W2080561962 @default.
W3195341676 cites W2082340663 @default.
W3195341676 cites W2082904789 @default.
W3195341676 cites W2083097400 @default.
W3195341676 cites W2084043217 @default.
W3195341676 cites W2084358749 @default.
W3195341676 cites W2087061258 @default.
W3195341676 cites W2090869573 @default.
W3195341676 cites W2091316899 @default.
W3195341676 cites W2093847420 @default.
W3195341676 cites W2094286299 @default.
W3195341676 cites W2100892215 @default.
W3195341676 cites W2102285579 @default.
W3195341676 cites W2118536815 @default.
W3195341676 cites W2129620871 @default.
W3195341676 cites W2136793451 @default.
W3195341676 cites W2140740968 @default.
W3195341676 cites W2166477628 @default.
W3195341676 cites W2168384775 @default.
W3195341676 cites W2187266957 @default.
W3195341676 cites W2192508066 @default.
W3195341676 cites W2291311084 @default.
W3195341676 cites W2329688308 @default.
W3195341676 cites W2557527957 @default.
W3195341676 cites W2590603525 @default.
W3195341676 cites W2743655383 @default.
W3195341676 cites W2882759967 @default.
W3195341676 cites W2889947661 @default.
W3195341676 cites W2893054737 @default.
W3195341676 cites W2911851120 @default.
W3195341676 cites W2965973587 @default.
W3195341676 cites W3094251789 @default.
W3195341676 cites W4235079867 @default.
W3195341676 doi "https://doi.org/10.1002/9781119749882.ch12" @default.
W3195341676 hasPublicationYear "2020" @default.
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