A viscoelastic polymer matrix is used for configuration and adjustment of acoustical properties of a musical string for bowed and plucked instruments; the polymer matrix is not covering the surface of the string but is provided between the core and the at least one sheath or between wound sheaths around the core: The polymer matrix comprises a polymeric binding agent and insoluble, sub-micrometer size, nano-scale solid state particles embedded in the binding agent.

A viscoelastic polymer matrix is used for configuration and adjustment of acoustical properties of a musical string for bowed and plucked instruments; the polymer matrix is not covering the surface of the string but is provided between the core and the at least one sheath or between wound sheaths around the core: The polymer matrix comprises a polymeric binding agent and insoluble, sub-micrometer size, nano-scale solid state particles embedded in the binding agent.

In a method for producing a musical string, wherein at least one first winding element is wound on a string core of the musical string in the form of a helical line around the string core, it is proposed that during the winding of a first longitudinal section of the string core using the first winding element, a first pre-tension is applied to the string core, and during the winding of a second longitudinal section of the string core, which is different from the first longitudinal section, using the first winding element, a second pre-tension, which is different from the first pre-tension, is applied to the string core.

In a method for producing a musical string, wherein at least one first winding element is wound on a string core of the musical string in the form of a helical line around the string core, it is proposed that during the winding of a first longitudinal section of the string core using the first winding element, a first pre-tension is applied to the string core, and during the winding of a second longitudinal section of the string core, which is different from the first longitudinal section, using the first winding element, a second pre-tension, which is different from the first pre-tension, is applied to the string core.

The invention relates to a string (1) for a stringed, bowed musical instrument, for example a bowed musical instrument like violin, viola or cello. The string has a first, load bearing core (10) and a winding strand (100) wound around the first core in helical windings. A damping agent (40) suitable for vibration damping is arranged in a profiled recess (150) in the winding strand. The recess is functioning as a reservoir between the first core and the winding strand. The reservoir is containing and/or retaining the damping agent so as to, at least, reduce dissipation of the damping agent through a gap between the adjacent helical windings of the winding strand. The invention results in a longer lifetime with optimum acoustic properties of the string.

The invention relates to a string (1) for a stringed, bowed musical instrument, for example a bowed musical instrument like violin, viola or cello. The string has a first, load bearing core (10) and a winding strand (100) wound around the first core in helical windings. A damping agent (40) suitable for vibration damping is arranged in a profiled recess (150) in the winding strand. The recess is functioning as a reservoir between the first core and the winding strand. The reservoir is containing and/or retaining the damping agent so as to, at least, reduce dissipation of the damping agent through a gap between the adjacent helical windings of the winding strand. The invention results in a longer lifetime with optimum acoustic properties of the string.

A foldable stringed instrument, for example in the form of a travel guitar that folds mid-neck to assume a reduced profile is described. The mid-neck folding is accomplished in a symmetrical manner about a three-part hinge located in the neck to configure the travel guitar into a reduced profile. The bridge assembly can be translated longitudinally relative to the head of the guitar to allow sufficient detensioning of the guitar strings to enable an upper portion of the neck to be folded away from a lower portion of the neck and/or body to assume a reduced profile. To deploy the travel guitar for playing, the upper portion of the neck is unfolded into alignment with the lower portion of the neck and/or body, and the bridge assembly translated longitudinally relative to the head and locked in position to allow the guitar to be tuned for playing.

A metallic component of a musical instrument is advantageously made of a vibration sustaining non-amorphous metal alloy including at least one metal selected from the group consisting of beryllium, copper, iron, titanium, chromium, scandium, lead, aluminum, silicon and combinations thereof, especially of a non-amorphous beryllium copper alloy. Duration of vibration is lengthened multiple fold with the use of this new material, on the order of 10 to 50 times longer. This yields a superior acoustic experience for a musician which enhances the quality of their performance.

A metallic component of a musical instrument is advantageously made of a vibration sustaining non-amorphous metal alloy including at least one metal selected from the group consisting of beryllium, copper, iron, titanium, chromium, scandium, lead, aluminum, silicon and combinations thereof, especially of a non-amorphous beryllium copper alloy. Duration of vibration is lengthened multiple fold with the use of this new material, on the order of 10 to 50 times longer. This yields a superior acoustic experience for a musician which enhances the quality of their performance.

Multiple accessory assemblies for a string instrument are disclosed. The accessory assembly is a set of an accessory, made of a material of Young's modulus greater than 12 GPa, and at least one sound purifier, made of a material of Young's modulus roughly equal to or less than 3.5 GPa. A string instrument that includes at least one accessory assembly is also discussed.