A cleaning body 10 of the present invention includes a cloth-like body unit 11 and a washing liquid enclosure 12 provided on a surface of the body unit 11 or inside the body unit 11 and enclosing a washing liquid including alcohol. This can reduce a burden of conveyance by a user to enhance safety, and suitably exhibit cleaning capability.

There is provided a method (500) of treating an optical waveguide. The method comprises applying (502) the volume of ferrofluid to the optical waveguide, and applying (504) a magnetic field to the volume of ferrofluid to move the volume of ferrofluid at least partially along a length of the optical waveguide. A personal care device and a system are also disclosed.

Processing reinforcing fiber products to recover reinforcing fibers by removing other material, such fiber sizing material and/or matrix material from the reinforcing fibers. The processing includes cosolvent treating the reinforcing fiber product with a cosolvent composition including a normally-liquid first solvent portion and a normally-gaseous second solvent portion under conditions of temperature and pressure at which the cosolvent composition is in the form of a single fluid phase that is a liquid or a supercritical fluid. The processing may be performed in a continuous manner to recover the continuous reinforcing fibers in a continuous form.

Subject of the invention is a method for recycling a glass fiber product waste to obtain recycled glass fibers. By using the waste glass mat recycling method of the invention a complete separation of the glass fibers from the binder or any other bonded precipitations is achieved. The glass fibers regained by the method are undamaged glass fibers having preserved their original geometry and mechanical performance. Surprisingly the recycled glass fibers have a surface that is very smooth, plain and wave less. A further subject of the invention is glass fiber product comprising glass fibers and at least one binder is provided, wherein the glass fibers contain at least 2% by weight of recycled glass fibers and up to 98% by weight of new glass fibers.

Subject of the invention is a method for recycling a glass fiber product waste to obtain recycled glass fibers. By using the waste glass mat recycling method of the invention a complete separation of the glass fibers from the binder or any other bonded precipitations is achieved. The glass fibers regained by the method are undamaged glass fibers having preserved their original geometry and mechanical performance. Surprisingly the recycled glass fibers have a surface that is very smooth, plain and wave less. A further subject of the invention is glass fiber product comprising glass fibers and at least one binder is provided, wherein the glass fibers contain at least 2% by weight of recycled glass fibers and up to 98% by weight of new glass fibers.

Provided is a cutting method for a tube glass, including: a heating step of heating a preset cut portion (CP) of the tube glass (G2) by radiating laser light (L11) to the preset cut portion (CP); an inner crack region forming step of forming an inner crack region (C1) including one or a plurality of cracks through multiphoton absorption that occurs in an irradiation region of laser light (L12) by radiating the laser light (L12) having a focal point adjusted to an inside of the preset cut portion (CP); and a cooling step of cooling the preset cut portion (CP), to thereby cause the cracks to propagate in the inside of the preset cut portion (CP).

A process for removing contaminants from a fiber reinforcement material, the process comprising: (a) feeding a fiber reinforcement into a heated vessel, (b) passing the fiber reinforcement through the heated vessel, (c) heating a source of fluid medium, (d) feeding the heated fluid medium from (c) into the heated vessel having a passageway in the heated vessel for allowing the heated fluid medium from (c) to enter into the heated vessel, (e) passing the heated fluid medium through the heated vessel; wherein the heated vessel has a passageway for allowing the heated fluid medium from (c) to exit the heated vessel, and (f) contacting the fiber reinforcement passing through the heated vessel with the heated fluid medium passing through the heated vessel such that any contaminants present in or on the fiber reinforcement is sufficiently reduced to provide a purified fiber reinforcement exiting the heated vessel.

Embodiments of the present invention provide a method for finishing a glass product including a glass layer, the glass layer comprising boron. The method includes the step of cleaning the glass layer in order to remove boron at least at the surface of the glass layer. The step of cleaning includes the substep of esterification using a medium comprising an alcohol.

Embodiments of the present invention provide a method for finishing a glass product including a glass layer, the glass layer comprising boron. The method includes the step of cleaning the glass layer in order to remove boron at least at the surface of the glass layer. The step of cleaning includes the substep of esterification using a medium comprising an alcohol.

Provided is a method for producing a multi-core optical fiber that includes a plurality of cores made of pure silica glass and exhibits a minor transmission loss. The method for producing a multi-core optical fiber according to the present invention is a method for producing a multi-core optical fiber including a plurality of cores made of pure silica glass substantially free of Ge and a cladding surrounding the plurality of cores and made of a fluorine-containing silica glass. The multi-core optical fiber is produced by drawing an optical fiber preform at a drawing tension T satisfying the relationship 0.06 g/m.sup.2<T/S<0.4 g/m.sup.2, wherein S is a total cross-sectional area of the plurality of cores.