AT520395A1 - Sound-generating sheet for wind instruments - Google Patents

Abstract

A sound-producing sheet of composite fiber material for wind instruments, wherein the fiber composite is a fiber-reinforced polymer compound incorporated with hollow microspheres. The plastic sheet according to the invention is no longer distinguishable in its sound quality of currently used reeds and is even able to reproduce the characteristic dark, soft timbre of the "Viennese sound". The proposed polymer compound is also suitable for a production of the plastic sheet according to the invention by injection molding, whereby a good batch constancy can be ensured in the production. The plastic sheet is also very durable and does not change its properties, especially during the game.

Description

Wind instruments such as the clarinet or the saxophone have a beak-shaped blowing device, which is formed from a leaf and a mouthpiece. The sheet is the actual tone generator and is attached to the mouthpiece. Due to the air flow that is blown into the instrument by the musician, the sheet attached to the mouthpiece begins to vibrate, causing a vibration in the air column of the instrument. With the lower lip and airflow, the player controls the vibration of the blade, which affects both the sound and the intonation. The execution of the sheet is therefore of crucial importance for the quality of the sound of the instrument. It is mostly made from cane wood (pile wood, Arundo donax). The tissue of the Arundo donax consists of longitudinal capillary tubes ("xylemes"). The xylemes are in a soft, foam-like

Mass embedded and connected to each other. The fabric structure of the wood is responsible for the flexibility and the vibration behavior. The disadvantages when using a natural material are material inhomogeneity and material fatigue during processing, which results in variable quality in production and use. Although there are efforts to manufacture sheets from plastics, it has not yet been possible to imitate the timbre of a sheet made from a natural material in a satisfactory manner. For example, plastic sheets made of highly stretched polypropylene are available, which are cut into the appropriate contour by milling.

Known manufacturing processes also result in plastic sheets with gross defects such as widely varying, batch-dependent playing behavior or generally poor playability. So plastic sheets have so far hardly been used in the professional sector. This applies in particular to the German clarinet system with its mouthpiece path which is different from the French clarinet system, in which the reed has more mass but smaller

2.7

Amplitude vibrates and so also produces the characteristic timbre of the “Viennese clarinet called“ Wiener Klang ”. This timbre with a comparatively darker, softer sound gives Austrian orchestras - alongside other Viennese instruments such as the Viennese oboe, the Viennese horn, the Viennese timpani or the Viennese percussion - their typical Viennese sound style. A satisfactory reproduction of this timbre achieved with sheets made of natural materials and their overtone characteristics with a synthetic plastic sheet did not seem possible until now.

The aim of the present invention is to avoid the disadvantages of using a natural material for the wind instruments and at the same time to maintain the advantages in terms of playability and timbre.

In particular, a high level of reproducibility in production and use should be guaranteed.

These goals are achieved by the features of claim 1. Claim 1 relates to a sound-generating sheet made of fiber composite materials for wind instruments. It is proposed according to the invention that the fiber composite material is a fiber-reinforced polymer compound to which hollow microspheres are added. The polymer compound may comprise, for example, a thermoplastic polymer, for example a polyolefin such as a cycloolefin copolymer (COP). The fibers can be, for example, carbon fibers, the fiber content of the fiber-reinforced polymer compound preferably being in a range of 10-20 percent by weight, for example 15 percent by weight. The hollow microspheres can be, for example, hollow glass microspheres, the fiber-reinforced polymer compound preferably having 40-60 percent by volume hollow microspheres, for example 50 percent by volume hollow microspheres. Additives such as adhesion promoters (compatibilizers) can also be added. The fiber-reinforced polymer compound preferably has a density below 0.9 g / cm ³ .

3.7

The plastic sheet according to the invention proves to be superior to all currently available plastic sheets in terms of gameplay and has a balanced ratio of stiffness, density and damping similar to that of wood in order to achieve clear tones and an easy allusion with both quiet and loud playing. These properties are achieved through the addition of hollow microspheres, particularly those made of glass. Hollow glass spheres are mostly made of low-alkali borosilicate glass and are chemically inert and water-insoluble. This filler is characterized by a low nominal density and high compressive strength. The diameters of these hollow microspheres are in the micrometer range and are generally between 10 and 110 μm, whereby they are usually available in a size distribution in this range.

The tone of the plastic sheet according to the invention not only resembles that of currently used reeds, but is even able to reproduce the characteristic dark, soft tone of the "Wiener Klangs" in its sound quality, so that for professional musicians there is no difference between a conventional reed and the plastic sheet according to the invention is more recognizable.

The proposed polymer compound is also suitable for producing the plastic sheet according to the invention in an injection molding process, as a result of which good batch consistency, that is to say high qualitative reproducibility, can be ensured during production. The plastic blade is also very stable and does not change its properties, especially during the game. In terms of its physical properties with regard to rigidity and density, it has properties similar to the natural materials currently used, such as an elastic modulus of 6,0009,000 MPa and a density of less than 0.9 g / cm ³ . Of course, the timbre of a sheet and its vibration behavior during play is a complex interplay of an abundance of material properties, so it was very surprising that the plastic sheet according to the invention was in its

Claims (10)

Claims: 1. Sound-generating sheet made of fiber composite materials for wind instruments, characterized in that the fiber composite material is a fiber-reinforced polymer compound to which the hollow microspheres are added. 2. Sound generating sheet according to claim 1, characterized in that the polymer compound comprises a thermoplastic polymer. 3. Sound-generating sheet according to claim 2, characterized in that the thermoplastic polymer is a polyolefin. 4. Sound-generating sheet according to claim 2 or 3, characterized in that the thermoplastic polymer is a cycloolefin copolymer (COP). 5. Sound-generating sheet according to one of claims 1 to 4, characterized in that the fibers are carbon fibers. 6. Sound generating sheet according to one of claims 1 to 5, characterized in that the fiber content of the fiber-reinforced polymer compound is in a range of 10-20 percent by weight. 7. Sound-generating sheet according to one of claims 1 to 6, characterized in that the hollow microspheres are hollow glass microspheres. 8. Sound generating sheet according to one of claims 1 to 7, characterized in that the fiber-reinforced Polymer compound has 40-60 volume percent hollow microspheres. 9. Sound generating sheet according to claim 8, characterized in that the fiber-reinforced polymer compound has 50 volume percent hollow microspheres. 10. Sound generating sheet according to one of claims 1 to 9, characterized in that the fiber-reinforced Polymer compound has a density below 0.9 g / cm ³ .