Reducing MRI gradient coil vibration with rib stiffeners


Autoria(s): Lin, Tian Ran; O'Shea, Peter J.; Mechefske, Chris K.
Data(s)

02/11/2009

Resumo

This work investigates the effect of rib stiffeners on the free and forced vibration of a gradient coil in a Magnetic Resonance Imaging (MRI) scanner. Several reinforcement schemes are studied in this paper. One scheme utilizes the existing holes in the gradient coil structure (typically reserved for magnetic shims) to produce the reinforcement. Non-ferrous, non-magnetic carbon fibre rib stiffeners are employed to fill these holes in several ways to strengthen a gradient coil. Another scheme replaces the inner half of the gradient coil material with a grid of interconnected axial and circumferential rib stiffeners. It is found that the structural stiffness of the gradient coil increases substantially when the coil is reinforced by carbon fibre rib stiffeners. The reinforcement affects the noise and vibration response of the gradient coil structure in the following ways. It increases the frequency range of forced response of the gradient coil at low frequencies due to the increased resonant frequency of the fundamental mode of the coil. Secondly, it reduces the forced response amplitude of the coil structure (which is governed by the structural stiffness of the coil). Thirdly, it reduces the number of natural modes in the low and medium frequency range and therefore lessens the chance of the coil structure being excited resonantly by magnetic resonance signal acquisition sequences. It is shown that gradient coils modelled by solid finite element models have higher stiffness along the coil’s circumference and lower stiffness in the axial direction than those using shell finite element models.

Identificador

http://eprints.qut.edu.au/28415/

Publicador

John Wiley & Sons

Relação

DOI:10.1002/cmr.b.20148

Lin, Tian Ran, O'Shea, Peter J., & Mechefske, Chris K. (2009) Reducing MRI gradient coil vibration with rib stiffeners. Concepts in Magnetic Resonance Part B: Magnetic Resonance Engineering, 35(4), pp. 198-209.

Fonte

Faculty of Built Environment and Engineering; Institute of Health and Biomedical Innovation; School of Engineering Systems

Palavras-Chave #091304 Dynamics Vibration and Vibration Control #091307 Numerical Modelling and Mechanical Characterisation #vibration #thick cylindrical shell #gradient coil #rib stiffening
Tipo

Journal Article