An Analytical Method for 3-Phase Model of Electro-Magneto-Elastic Fiber Composites with Periodically Distributed Reinforced Phases
The response of electro-magneto-elastic long fiber composites containing periodically distributed reinforced phases under antiplane shear load coupled with inplane electromagnetic load is dealt with, there are three different electro-magneto-elastic materials in the unit cell (3-phase model), a rigorous analytical method is developed by using the generalized eigenstrain concept integrated with the doubly quasiperiodic Riemann boundary value problem theory. As an important application of the presented solution, the effective electro-magneto-elastic moduli are predicted and compared with the results from the generalized self-consistent method.
Jianmin Zeng, Taosen Li, Shaojian Ma, Zhengyi Jiang and Daoguo Yang
Y. L. Xu and H. L. Hou, "An Analytical Method for 3-Phase Model of Electro-Magneto-Elastic Fiber Composites with Periodically Distributed Reinforced Phases", Advanced Materials Research, Vols. 194-196, pp. 1389-1395, 2011