Add to ORKG[[abstract]]One of the primary mechanisms to vary one's vocal frequency is through vocal fold length changes. As stress and deformation are linked to each other, it is hypothesized that the anisotropy in the biomechanical properties of the vocal fold tissue would affect the phonation characteristics. A biomechanical model of vibrational frequency rise during vocal fold elongation is developed which combines an advanced biomechanical characterization protocol of the vocal fold tissue with continuum beam models. Biomechanical response of the tissue is related to a microstructurally informed, anisotropic, nonlinear hyperelastic constitutive model. A microstructural characteristic (the dispersion of collagen) was represented through a statistic...
[[abstract]]The human voice is produced by flow-induced self-sustained oscillation of the vocal fold...
[[abstract]]The vocal folds are known to be mechanically anisotropic due to the microstructural arra...
[[abstract]]n voice research, in vitro tensile stretch experiments of vocal fold tissues are commonl...
[[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...
Human voice is produced by flow-induced self-sustained oscillation of the vocal fold lamina propria....
[[abstract]]The mechanical properties of the vocal fold lamina propria, including the vocal fold cov...
[[abstract]]This study examines the local and global changes of fundamental frequency (F0) during ph...
[[abstract]]The vocal ligament is known to have nonlinear variation in geometry, yet this is rarely ...
International audienceComposed of collagen, elastin and muscular fibrous networks, vocal folds are s...
[[abstract]]The elastic as well as time-dependent mechanical response of the vocal fold cover (epith...
[[abstract]]Accurate characterization of biomechanical characteristics of the vocal fold is critical...
[[abstract]]The human voice is produced by flow-induced self-sustained oscillation of the vocal fold...
[[abstract]]The vocal folds are known to be mechanically anisotropic due to the microstructural arra...
[[abstract]]n voice research, in vitro tensile stretch experiments of vocal fold tissues are commonl...
[[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...
Human voice is produced by flow-induced self-sustained oscillation of the vocal fold lamina propria....
[[abstract]]The mechanical properties of the vocal fold lamina propria, including the vocal fold cov...
[[abstract]]This study examines the local and global changes of fundamental frequency (F0) during ph...
[[abstract]]The vocal ligament is known to have nonlinear variation in geometry, yet this is rarely ...
International audienceComposed of collagen, elastin and muscular fibrous networks, vocal folds are s...
[[abstract]]The elastic as well as time-dependent mechanical response of the vocal fold cover (epith...
[[abstract]]Accurate characterization of biomechanical characteristics of the vocal fold is critical...
[[abstract]]The human voice is produced by flow-induced self-sustained oscillation of the vocal fold...
[[abstract]]The vocal folds are known to be mechanically anisotropic due to the microstructural arra...
[[abstract]]n voice research, in vitro tensile stretch experiments of vocal fold tissues are commonl...