Madera e instrumentos musicales / Ulrike G. K. Wegst,...[et al.]

Incluye bibliografía

Contenido V. 1 Propiedades físicas. Wood for sound. Acoustical classification of woods for string instruments. Physical and mechanical properties required for violin bow materials. Sound quality assessment of wood for xylophone bars. Resonance wood-evaluation and prediction of violin makers quality-grading. Speed of sound and damping of spruce in relation to the direction of grains and rays. Acoustical classification of woods for string instruments. Compliances of wood for violin top plates. Defects in wood from aspect of physical acoustics. A comparison of string instruments based on wood properties: biwa vs cello. Vibrational properties of wood along the grain. The acoustics of stringed musical instruments. Physical and mechanical properties required for violin bow materials II: comparison of the processing properties and durability between pernambuco and substitutable wood species. Characterization of the wood quality of pernambuco (caesalpinia echinata lam) by measurements of density, extractives content, microfibril angle, stiffness, color, and NIR spectroscopy. Key signal and wood anatomy parameters related to the acoustic quality of wood for xylophone-type percussion instruments. Experimental modal analysis of bows. Measuring the quality of guitar tone. Classical guitar top board design by finite element method modal analysis based on acoustic measurements of guitars of different quality. Finite element analysis and experimental measurements of natural eigenmodes and random responses of wooden bars used in musical instruments. Sound absorption of wood-based materials. Vibration measurements in the classical guitar. Acoustic properties of wood in tridimensional representation of slowness surfaces. Acoustical analysis of woodwind musical instruments for virtual instrument implementation by physical modeling. Time-frequency analysis of musical instruments. The design and performance of musical instruments. Dendrochronological and wood biological investigations on string instruments. / Ulrike G. K. Wegst,...[et al.]. V. 2 Propiedades químicas. Suitability of acetylated woods for clarinet reed. Vibrational property changes of spruce wood by impregnation with water-soluble extractives of pernambuco (guilandina echinata spreng). Improvement of the acoustic and hygroscopic properties of wood by a chemical treatment and application to the violin parts. Dependence of vibrational properties of wood on varnishing during its drying process in violin manufacturing. Acoustic characteristics of carbon fiber-reinforced synthetic wood for musical instrument soundboards. Effects of oriental lacquer (urushi) coating on the vibrational properties of wood used for the soundboards of musical instruments. Physical and chemical properties of varnishes and their vibrational consequences. The effects of water soluble extractives on the acoustic properties of reed. Bracing effect in a guitar top board by vibration experimental and modal analysis. Acoustic properties of resonance wood and distribution of inorganic components of the cell wall. Chemical treatment of wood for musical instruments. Part I: Acoustically important properties of wood for the ranad (Thai traditional xylophone). Acoustic characteristics of unidirectionally fiber-reinforced polyurethane foam composites for musical instrument soundboards. Acoustoelastic theory for elastic-plastic materials. The mathematics of musical instruments. Air-wood coupling and the Swiss-cheese violin. Bent plates in violin construction. Damping loss in wood and mid kilohertz frequencies. Body vibration of the violin--What can a maker expect to control?. The violin: chladni patterns, plates, shells, and sounds. Untersuchungen zur vergleichenden charakterisierung von thermisch modifizierter fichte für resonanzdecken von gitarren. The science of sound: examining the role of materials in musical instruments. Bibliography: physical modeling of musical instruments. Fabricación y restauración de instrumentos musicales clásicos de cuerdas. / Eiichi Obataya,...[et al.].