Dynamic response of a sensor element made of magnetic hybrid elastomer with controllable properties

• Published in: Journal of magnetism and magnetic materials Vol. 449; pp. 77 - 82
• Main Authors: Becker, T.I., Zimmermann, K., Borin, D.Yu, Stepanov, G.V., Storozhenko, P.A.
• Format: Journal Article
• Language: English
• Published: Amsterdam Elsevier B.V 01.03.2018; Elsevier BV
• Subjects: Adaptive systems; Beams (structural); Bending vibrations; Dynamic response; Eigenfrequency; Elastomers; Magnetic fields; Magnetic hybrid elastomer; Magnetic properties; Magneto-sensitive elastomer; Sensitivity; Sensors; Smart materials; Stability; Studies; Vibrating sensor element; Magnetic hybrid elastomer; Vibrating sensor element; Magneto-sensitive elastomer; Eigenfrequency; Magnetic properties; Bending vibrations
• ISSN: 0304-8853; 1873-4766
• DOI: 10.1016/j.jmmm.2017.09.081

•Research on a magnetic hybrid elastomer (MHE) made of magnetically hard and soft particles.•Examination of the structure formation of the magnetic fillers in an elastic matrix.•Study of free bending vibrations of MHE beams controlled by a uniform magnetic field.•Identification of the deflection of magnetised MHE beams by magnetic field distortion.•Magnetic-field controlled behaviour of MHEs can be used in systems with variable sensitivity. Smart materials like magnetic hybrid elastomers (MHEs) are based on an elastic composite with a complex hybrid filler of magnetically hard and soft particles. Due to their unique magnetic field depending characteristics, these elastomers offer great potential for designing sensor systems with a complex adaptive behaviour and operating sensitivity. The present paper deals with investigations of the material properties and motion behaviour displayed by synthesised MHE beams in the presence of a uniform magnetic field. The distribution and structure formation of the magnetic components inside the elastic matrix depending on the manufacturing conditions are examined. The specific magnetic features of the MHE material during the magnetising process are revealed. Experimental investigations of the in-plane free vibrational behaviour displayed by the MHE beams with the fixed-free end conditions are performed for various magnitudes of an imposed uniform magnetic field. For the samples pre-magnetised along the length axis, it is demonstrated that the deflection of the beam can be identified unambiguously by magnetic field distortion measurements. It is shown that the material properties of the vibrating MHE element can be specifically adjusted by means of an external magnetic field control. The dependence of the first eigenfrequency of free bending vibrations of the MHE beams on the strength of an imposed uniform magnetic field is obtained. The results are aimed to assess the potential of MHEs to design acceleration sensor systems with an adaptive magnetically controllable sensitivity range.