The thermo-mechanical balance equations for a porous material with big irregular pores are derived from the general ones for a medium with ellipsoidal microstructure by imposing the kinematical constraint of microstretch bounded to the macrodeformation: in this case the microstructure disappears apparently (it becomes latent) and the response of the material involves higher gradients of the displacement without incurring known constitutive inconsistencies.
Nano-pores in a thermo-elastic continuum with strain gradient effects / Giovine, Pasquale. - 4:(2017), pp. 50-59. (Intervento presentato al convegno Proceedings of XXIII Conference AIMETA 2017 - tenutosi a Salerno - Italy nel 4–7 September 2017).
Nano-pores in a thermo-elastic continuum with strain gradient effects
GIOVINE, PASQUALE
2017-01-01
Abstract
The thermo-mechanical balance equations for a porous material with big irregular pores are derived from the general ones for a medium with ellipsoidal microstructure by imposing the kinematical constraint of microstretch bounded to the macrodeformation: in this case the microstructure disappears apparently (it becomes latent) and the response of the material involves higher gradients of the displacement without incurring known constitutive inconsistencies.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
