Computational homogenization of liquid-phase sintering based on a mixed variational format. (English) Zbl 1397.74200
Summary: In this paper a mixed velocity-pressure variational formulation is adopted for the subscale modeling of sintering stemming from micropores with surface tension. The macroscopic response is obtained from variationally consistent homogenization. As to the driving force for sintering, the model framework allows for a non-spherical sintering stress, derived via the homogenization procedure, which contrasts traditional macroscopic modeling. The proposed method can seamlessly handle the transition from macroscopically compressible to incompressible response.{
}For the Representative Volume Elements (RVEs) the weakly periodic, Neumann, and Dirichlet type boundary conditions are established, and it is shown that the Hill-Mandel condition is satisfied. The numerical examples show the transient behavior of a 2D unit-cell subjected to free sintering. Effective macroscale properties pertinent to different boundary conditions are compared for a 3D microstructure.
MSC:
| 74S30 | Other numerical methods in solid mechanics (MSC2010) |
| 74Q05 | Homogenization in equilibrium problems of solid mechanics |
| 80A20 | Heat and mass transfer, heat flow (MSC2010) |
Keywords:
multiscale; computational homogenization; incompressibility; porosity; surface tension; sinteringReferences:
| [1] | R. M.German, Sintering theory and practice (Wiley, 1996). |
| [2] | A.Jagota and P. R.Dawson, Acta Metallurgica36(9), 2551-2561 (1988). |
| [3] | A.Jagota and P. R.Dawson, Acta Metallurgica36(9), 2563-2573 (1988). |
| [4] | G. A. L.van de Vorst, Journal of Fluid Mechanics257(April), 667-689 (1993). · Zbl 0801.76019 |
| [5] | H.Zhou and J. J.Derby, Journal of the American Ceramic Society81(3), 533-540 (1998). |
| [6] | H.Zhou and J. J.Derby, International Journal for Numerical Methods in Fluids36(7), 841-865 (2001). · Zbl 1028.76027 |
| [7] | W. G.Dettmer and D.Perić, Computer Methods in Applied Mechanics and Engineering195(23‐24), 3038-3071 (2006). · Zbl 1115.76043 |
| [8] | D.Pino Muñoz, J.Bruchon, S.Drapier, and F.Valdivieso, Key Engineering Materials554‐557(June), 714-723 (2013). |
| [9] | C. R.Reid and R. G.Oakberg, Mechanics of Materials10(3), 203-213 (1990). |
| [10] | L.Mähler and K.Runesson, Mechanics of Cohesive‐frictional Materials5(8), 653-671 (2000). |
| [11] | J.Svoboda, H.Riedel, and R.Gaebel, Acta Materialia44(8), 3215-3226 (1996). |
| [12] | K.Xu and M. M.Mehrabadi, Mechanics of Materials25(2), 157-137 (1997). |
| [13] | P.Lu, W.Yi, X.Xu, and R. M.German, Materials Science and Engineering A318(1‐2), 111-121 (2001). |
| [14] | E. A.Olevsky, Materials Science and Engineering: R: Reports23(2), 41-100 (1998). |
| [15] | E. A.Olevsky and R. M.German, Acta Materialia48(5), 1153-1166 (2000). |
| [16] | S.Klinge and K.Hackl, International Journal for Multiscale Computational Engineering10(3), 213-227 (2012). |
| [17] | C.Miehe and A.Koch, Archive of Applied Mechanics72(4‐5), 300-317 (2002). · Zbl 1032.74010 |
| [18] | C.Oskay and J.Fish, Computer Methods in Applied Mechanics and Engineering196(7), 1216-1243 (2007). · Zbl 1173.74380 |
| [19] | S.Kuznetsov and J.Fish, International Journal for Numerical Methods in Engineering91(11), 1199-1226 (2012). |
| [20] | T. I.Zohdi and P.Wriggers, Computer Methods in Applied Mechanics and Engineering190(22‐23), 2803-2823 (2001). · Zbl 1013.74082 |
| [21] | F.Larsson, K.Runesson, and F.Su, International Journal for Numerical Methods in Engineering81(13), 1659-1686 (2010). · Zbl 1183.80109 |
| [22] | C.Sandström and F.Larsson, International Journal for Multiscale Computational Engineering11(2), 117-138 (2013). |
| [23] | M.Öhman, K.Runesson, and F.Larsson, Computer Methods in Applied Mechanics and Engineering266, 219-228 (2013). · Zbl 1286.76045 |
| [24] | E. A.de Souza Neto, P. J.Blanco, P. J.Sánchez, and R. A.Feijóo, Mechanics of Materials80, Part A(January), 136-144 (2015). |
| [25] | S.Toro, P.Sánchez, P.Blanco, S. N. E.De, A.Huespe, and R.Feijo, International Journal of Plasticity76, 75-110 (2016). |
| [26] | M.Öhman, K.Runesson, and F.Larsson, Advanced Modeling and Simulation in Engineering Sciences2(1), 1-29 (2015). |
| [27] | A.McBride, J.Mergheim, A.Javili, P.Steinmann, and S.Bargmann, Journal of the Mechanics and Physics of Solids60(6), 1221-1239 (2012). |
| [28] | F.Larsson, K.Runesson, S.Saroukhani, and R.Vafadari, Computer Methods in Applied Mechanics and Engineering200(1‐4), 11-26 (2011). · Zbl 1225.74069 |
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