| 1 | Dargush, G.F., Kim, J., 2012. Mixed convolved action. Phys. Rev. E. 85, 066606. DOI |
| 2 | Rayleigh, J.W.S., 1877. The Theory of Sound. Dover, New York. |
| 3 | Sivaselvan, M.V., Reinhorn, A.M., 2006. Lagrangian approach to structural collapse simulation. J. Eng. Mech. 132, 795-805. DOI |
| 4 | Apostolakis, G., Dargush, G.F., 2012. Mixed Lagrangian formulation for linear thermoelastic response of structures. J. Eng. Mech. 138, 508-518. DOI |
| 5 | Apostolakis, G., Dargush, G.F., 2013. Mixed variational principles for dynamic response of thermoelastic and poroelastic continua. Int. J. Solids. Struct. 50, 642-650. DOI |
| 6 | Lavan, O., Sivaselvan, M.V., Reinhorn, A.M., Dargush, G.F., 2009. Progressive collapse analysis through strength degradation and fracture in the mixed Lagrangian formulation. Earthquake Eng. Struct. Dyn. 38, 1483-1504. DOI |
| 7 | Sivaselvan, M.V., Lavan, O., Dargush, G.F., Kurino, H., Hyodo, Y., Fukuda, R., Sato, K., Apostolakis, G., Reinhorn, A.M., 2009. Numerical collapse simulation of large-scale structural systems using an optimization-based algorithm. Earth Earthquake Eng. Struct. Dyn. 38, 655-677. DOI |
| 8 | Gurtin, M.E., 1964a. Variational principles for linear elastodynamics. Arch. Ration. Mech. Anal. 16, 34-50. |
| 9 | Gurtin, M.E., 1964b. Variational principles for linear initial-value problems. Q. Appl. Math. 22, 252-256. |
| 10 | Tonti, E., 1973. On the variational formulation for linear initial value problems. Ann. Mat. Pur. Appl. 95, 331-359. DOI |
| 11 | Hamilton, W.R., 1834. On a general method in dynamics. Philos. Trans. R. Soc. London 124, 247-308. DOI |
| 12 | Hamilton, W.R., 1835. Second essay on a general method in dynamics. Philos. Trans. R. Soc. London 125, 95-144. DOI |
 |
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