The large strain in Ferromagnetic Shape Memory Alloys (FSMA) is due to the martensite
reorientation driven by mechanical stresses and/or magnetic fields. Although most …

This contribution is concerned with the embedding of constitutive relations for magneto-
active polymers (MAP) into finite element simulations. To this end, a recently suggested …

This paper is the second part of a variational modeling work on the dynamic magneto-
mechanical response of magnetic shape memory alloys (MSMA). In the first part of this …

In this work, a continuum based model of the magnetic field induced phase transformation
(FIPT) for magnetic shape memory alloys (MSMA) is developed. Hysteretic material …

This paper is to improve our previous phase-transformable material constitutive model
(Chen et al., 2014) and implement it in a mass-spring configuration to study the recently …

Magnetic shape memory alloys (MSMAs) can exhibit the shape memory effect when there is
a magnetic field in the vicinity of a material point. The microstructure of the MSMAs is …

In the framework of finite deformations a model has been constructed to describe the
process of controlling the austenite-to-martensite phase transformation in ferromagnetic …

Ferromagnetic shape memory alloys (MSMA) exhibit magnetic field-and stress-induced
twinning when processed into single crystals, but are brittle and difficult to shape …

This study focuses on creating novel magnetoactive polymers (MAP) by incorporating
fabricated magnetic particles into elastomers, a unique approach to MAP preparation. We …

In the article, within the framework of the theory of micromagnetism, a magneto-elastic
microstructural model of the behavior of a ferromagnetic material with the shape memory …