As many studies show, there is a relation between the tissue's mechanical characteristics and some specific diseases. Knowing this relationship would help early diagnosis or microsurgery. In this paper, a new method for measuring the viscoelastic properties of soft materials at the microscale is proposed. This approach is based on the adoption of a microsystem whose mechanical structure can be reduced to a compliant four bar linkage where the connecting rod is substituted by the tissue sample. A procedure to identify both stiffness and damping coefficients of the tissue is then applied to the developed hardware. Particularly, stiffness is calculated solving the static equations of the mechanism in a desired configuration, while the damping coefficient is inferred from the dynamic equations, which are written under the hypothesis that the sample tissue is excited by a variable compression force characterized by a suitable wave form. The whole procedure is implemented by making use of a control system.
New MEMS tweezers for the viscoelastic characterization of soft materials at the microscale / Di Giamberardino, Paolo; Bagolini, Alvise; Bellutti, Pierluigi; Rudas, Imre J; Verotti, Matteo; Botta, Fabio; Belfiore, Nicola P. - In: MICROMACHINES. - ISSN 2072-666X. - 9:1(2018). [10.3390/mi9010015]
New MEMS tweezers for the viscoelastic characterization of soft materials at the microscale
Di Giamberardino, PaoloPrimo
;Verotti, Matteo;Belfiore, Nicola P
Ultimo
2018
Abstract
As many studies show, there is a relation between the tissue's mechanical characteristics and some specific diseases. Knowing this relationship would help early diagnosis or microsurgery. In this paper, a new method for measuring the viscoelastic properties of soft materials at the microscale is proposed. This approach is based on the adoption of a microsystem whose mechanical structure can be reduced to a compliant four bar linkage where the connecting rod is substituted by the tissue sample. A procedure to identify both stiffness and damping coefficients of the tissue is then applied to the developed hardware. Particularly, stiffness is calculated solving the static equations of the mechanism in a desired configuration, while the damping coefficient is inferred from the dynamic equations, which are written under the hypothesis that the sample tissue is excited by a variable compression force characterized by a suitable wave form. The whole procedure is implemented by making use of a control system.| File | Dimensione | Formato | |
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