Add to ORKG[[abstract]]The vocal ligament is known to have nonlinear variation in geometry, yet this is rarely considered in empirical or computational studies. This paper investigates the effects of a nonlinear variation of the anterior-to-posterior geometry and the corresponding spatial variation in elastic modulus on the fundamental frequency of vibration for the vocal ligament. Uniaxial tensile tests were performed on a vocal ligament specimen dissected from an excised 60-year-old male larynx. Digital image correlation (DIC) was used to obtain the spatial deformation field for the entire ligament specimen. DIC results revealed that the tensile deformation was very heterogeneous, with the least amount of deformation occurring in the region of small...
[[abstract]]The human voice is produced by flow-induced self-sustained oscillation of the vocal fold...
Universitat Klinic Eppendorf GermanyThe purpose of this study was to measure the relationship betwee...
International audienceComposed of collagen, elastin and muscular fibrous networks, vocal folds are s...
[[abstract]]The vocal ligament is known to have nonlinear variation in geometry, yet this is rarely ...
[[abstract]]One of the primary mechanisms to vary one's vocal frequency is through vocal fold length...
This investigation attempts to shed light on phonation from a solid mechanics (i.e. biomechanics) pe...
[[abstract]]The physical mechanisms leading to the acoustic and perceptual qualities of voice are no...
[[abstract]]The vocal folds are known to be mechanically anisotropic due to the microstructural arra...
Human voice is produced by flow-induced self-sustained oscillation of the vocal fold lamina propria....
[[abstract]]n voice research, in vitro tensile stretch experiments of vocal fold tissues are commonl...
[[abstract]]This study examines the local and global changes of fundamental frequency (F0) during ph...
[[abstract]]The mechanical properties of the vocal fold lamina propria, including the vocal fold cov...
New studies show that the elastic properties of the vocal folds (VFs) vary locally. In particular st...
[[abstract]]The human voice is produced by flow-induced self-sustained oscillation of the vocal fold...
Universitat Klinic Eppendorf GermanyThe purpose of this study was to measure the relationship betwee...
International audienceComposed of collagen, elastin and muscular fibrous networks, vocal folds are s...
[[abstract]]The vocal ligament is known to have nonlinear variation in geometry, yet this is rarely ...
[[abstract]]One of the primary mechanisms to vary one's vocal frequency is through vocal fold length...
This investigation attempts to shed light on phonation from a solid mechanics (i.e. biomechanics) pe...
[[abstract]]The physical mechanisms leading to the acoustic and perceptual qualities of voice are no...
[[abstract]]The vocal folds are known to be mechanically anisotropic due to the microstructural arra...
Human voice is produced by flow-induced self-sustained oscillation of the vocal fold lamina propria....
[[abstract]]n voice research, in vitro tensile stretch experiments of vocal fold tissues are commonl...
[[abstract]]This study examines the local and global changes of fundamental frequency (F0) during ph...
[[abstract]]The mechanical properties of the vocal fold lamina propria, including the vocal fold cov...
New studies show that the elastic properties of the vocal folds (VFs) vary locally. In particular st...
[[abstract]]The human voice is produced by flow-induced self-sustained oscillation of the vocal fold...
Universitat Klinic Eppendorf GermanyThe purpose of this study was to measure the relationship betwee...
International audienceComposed of collagen, elastin and muscular fibrous networks, vocal folds are s...