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Response of thermoelastic microbeam with double porosity structure due to pulsed laser heating

24 g 25 g 21 e − λ 1 L g 22 e − λ 2 L g 23 e − λ 3 L g 24 e − λ 4 L g 25 e − λ 5 L ⋯ g 21 e λ 1 L g 22 e λ 2 L g 23 e λ 3 L g 24 e λ 4 L g 25 e λ 5 L g 31 g 32 g 33 g 34 g 35 ⋯ g 31 g 32 g 33 g 34 g 35 g 31 e − λ 1 L g 32 e − λ 2 L g 33 e − λ 3 L g 34 e − λ 4 L g 35 e − λ 5 L ⋯ g 31 e λ 1 L g 32 e λ 2 L g 33 e λ 3 L g 234 e λ 4 L g 35 e λ 5 L D = [ D 1 D 2 D 3 D 4 D 5 D 6 D 7 D 8 D 9 D 10 ] t r , Y = [ 0 0 0 0 − H 1 − H 1 − H 2 − H 2 H 4 H 4 ] t r , H 4 = F ¯ ( s ) − H 3 , $$\begin{array}{} \displaystyle [A]=\\\left[\begin{array}{c}1 & 1&1&1&1&\cdots&1 & 1

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Elastodynamical disturbances due to laser irradiation in a microstretch thermoelastic medium with microtemperatures

\sum_{i=1}^{7}G_{7i}c_{i}=0, \end{array} $$ (49) Eqs. (43) – (49) can be written in matrix form in the following manner: g 11 g 12 g 13 g 14 g 15 g 16 g 17 g 21 g 22 g 23 g 24 g 25 g 26 g 27 g 31 g 32 g 33 g 34 g 35 g 36 g 37 g 41 g 42 g 43 g 44 g 45 g 46 g 47 g 51 g 52 g 53 g 54 g 55 g 56 g 57 g 61 g 62 g 63 g 64 g 65 g 66 g 67 g 71 g 72 g 73 g 74 g 75 g 76 g 77 c 1 c 2 c 3 c 4 c 5 c 6 c 7 = − F 1 − F 2 0 0 0 0 0 , $$\begin{array}{} \left[\begin{array}{c}g_{11}&g_{12}&g_{13}&g_{14}&g_{15}&g_{16}&g_{17}\\g_{21}&g_{22}&g_{23}&g_{24}&g_{25}&g_{26}&g_{27}\\g

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