The impact of alkaline treatments on elasticity in spruce tonewood

Malvermi, Raffaele; Albano, Michela; González, Sebastián; Fiocco, Giacomo; Antonacci, Fabio; Malagodi, Marco; Sarti, Augusto

doi:10.1038/s41598-022-17596-z

Cited by 4 publications

(1 citation statement)

References 30 publications

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“…Differences across cuts from the same tree have been reported [17], [18, ch.3], and [19, ch.4]. Furthermore, wood is susceptible to changes in environmental conditions such as temperature and moisture [20] and to chemical treatment [21,22]. These changes entail macroscopic modifications in a sample's density and size and in its response to excitation [23].…”

Section: Introductionmentioning

confidence: 99%

A Method to Estimate the Rectangular Orthotropic Plate Elastic Constants Using Least-Squares and Chladni Patterns

Ducceschi,

Duran,

Tahvanainen

et al. 2023

Preprint

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Section: Introductionmentioning

confidence: 99%

A Method to Estimate the Rectangular Orthotropic Plate Elastic Constants Using Least-Squares and Chladni Patterns

Ducceschi,

Duran,

Tahvanainen

et al. 2023

Preprint

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Characterization of proteinaceous and other organic materials in historical stringed musical instruments by off-line analytical pyrolysis with silylation

Rombolà

Fabbri

Shibuya

et al. 2023

Journal of Analytical and Applied Pyrolysis

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Model based ranking of the influence of geometry and materials on the dynamical behavior of the violin highlights predominance of geometrical choices

Viala,

Placet,

Foltête

et al. 2024

Sci Rep

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When considering the vibroacoustical behavior of the family of violin instruments, especially related to their construction, numerous beliefs and theories coexist that are not necessarily compatibles between each other. More specifically, the resulting sound or dynamics of the instrument are associated to tonewood properties and geometry, but with ranking and weights that vary according to beliefs and testimony of makers. This study presents an approach to understanding the relative influence of both geometrical and material properties on the vibrational dynamics of the violin. By conducting a screening analysis, using finite element method based computations of a complete violin, we explore impact of maker's choices during the construction process. The results highlight that the dynamical behavior of the violin is mainly depending on geometrical choices, such as thickness of back and top plate or f-holes shapes, rather than the complete variability of properties of tonewoods. Therefore, the wood selection appears to be a second order effect compared to other luthier's choices, supporting a craftsmanship practice and can pave the way to the use of lower grade woods, which are more in adequacy with what the resource can offer. This work offers new insights that can assist violin makers in optimizing their design choices and adapting to sustainable material use without compromising subsequent behavior.

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The impact of alkaline treatments on elasticity in spruce tonewood

Cited by 4 publications

References 30 publications

A Method to Estimate the Rectangular Orthotropic Plate Elastic Constants Using Least-Squares and Chladni Patterns

A Method to Estimate the Rectangular Orthotropic Plate Elastic Constants Using Least-Squares and Chladni Patterns

Characterization of proteinaceous and other organic materials in historical stringed musical instruments by off-line analytical pyrolysis with silylation

Model based ranking of the influence of geometry and materials on the dynamical behavior of the violin highlights predominance of geometrical choices

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