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陳維佳教師學術著作及研究

陳維佳 副教授Roger W. Chan 

學術著作及研究

期刊論文(2013-2018)

Chan, R.W. Vocal fold tissue fatigue response to accumulated, large-amplitude vibration exposure at phonatory frequencies (manuscript in review).

Chan, R.W. (2018). Nonlinear viscoelastic characterization of human vocal fold tissues under large-amplitude oscillatory shear (LAOS). Journal of Rheology, 62(3), 695-712.

Kimura, M., Chan, R.W. (2018). Viscoelastic properties of human aryepiglottic fold and ventricular fold tissues at phonatory frequencies. Laryngoscope, 128(8), E296-E301.

Xu, C.C., Chan, R.W., Sun, H., Zhan, X. (2017). A mixed-effects model approach for the statistical analysis of vocal fold viscoelastic shear properties. Journal of Mechanical Behavior of Biomedical Materials, 75, 477-485.

Hunter, E.J., Palaparthi, A.K.R., Siegmund, T., Chan, R.W. (2014). Comparison of two laryngeal tissue fiber constitutive models. Mechanics of Time-Dependent Materials, 18, 179-196.

Hunter, E.J., Siegmund, T., Chan, R.W. (2014). Strain modulations as a mechanism to reduce stress relaxation in laryngeal tissues. PLoS One, 9(3), e90762.

Kelleher, J.E., Siegmund, T., Chan, R.W. (2014). Collagen microstructure in the vocal ligament: Initial results on the potential effects of smoking. Laryngoscope, 124(9), E361-367.

 

Kelleher, J.E., Siegmund, T., Du, M., Naseri, E., Chan, R.W. (2013). The anisotropic hyperelastic biomechanical response of the vocal ligament and implications for frequency regulation: A case study. Journal of the Acoustical Society of America, 133(3), 1625-1636.

Kelleher, J.E., Siegmund, T., Du, M., Naseri, E., Chan, R.W. (2013). Empirical measurements of biomechanical anisotropy of the human vocal fold lamina propria. Biomechanics and Modeling in Mechanobiology, 12(3), 555-567.

 

 

 

 

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