A functional polymeric cutting edge structure and methods for manufacturing cutting edge structures using polymeric materials are provided. A razor blade for use in a razor cartridge or a blade box for assembly in a razor cartridge frame may be formed using the present invention.

This invention relates to a novel of making a personal care product including the steps of providing a treatment sheet comprised of a first material and a first plurality of apertures and joining a support structure to the lower surface of the treatment sheet. The support structure includes a support material, a support sheet, a support ring, or any combination thereof. The support sheet includes a second plurality of apertures. The support sheet is disposed beneath the treatment sheet by aligning the first plurality of apertures and the second plurality of apertures. Fluid support material is solidified such that the treatment sheet and the support sheet are bonded together. The support ring is disposed on a housing (e.g., in a groove) below the support sheet or joined to the treatment sheet via the support material prior to solidifying.

A novel cutting-edge structure and method and apparatus for manufacturing the cutting-edge structure is provided. The cutting-edge structure is comprised of naturally derived or renewable material at greater than 50% by volume fraction. In one embodiment, the naturally derived material is a cellulose nanostructure such as a cellulose nanocrystal. The cellulose nanocrystal is processed using a base or mold structure to provide a cutting edge of any shape such as linear or circular edge structures. The process includes dual cure steps to produce an optimal cutting-edge structure without shrinkage. The formed cutting-edge structure can be utilized as a razor blade as it is formed with very sharp tip and edge suitable for cutting hair. The base structure can form one or more cutting-edge structures simultaneously.

A system for making a template for printing a bespoke shaving mask that conforms to the shape of a portion of an individual's head or face is disclosed, wherein the bespoke shaving mask being positionable on said head or face to enable a desired hair style to be achieved during shaving. The system comprises a user input, data store and processor. The user input is arranged to receive a user selection of a desired facial hair style from a plurality of facial hair styles. The data store is arranged to store data representing a three dimensional scan of the user's head or face. The processor is arranged to map data representing said selected facial hair style onto said data representing said three dimensional scan to generate said template. Supplementary to the system there is required, a three dimensional scanner for producing the data representing a three dimensional scan of the user's head or face, and a three dimensional printer configured so as to print the bespoke shaving mask.

A handle (14) for a skincare device including a core portion (20) made of recycled polymer material and an outer skin portion (22) made of virgin polymer material. A method of manufacturing such a handle (14). A handheld skincare device including such a handle (14) and a skincare kit including such a handle (14) and at least one razor cartridge.

A shaving system may include a handle, a skin-contacting surface coupled to the handle, one or more blades coupled to the skin-contacting surface, and one or more sensors configured to record sounds generated during use of the shaving system.

A novel cutting-edge structure and method and apparatus for manufacturing the cutting-edge structure is provided. The cutting-edge structure is comprised of naturally derived or renewable material at greater than 50% by volume fraction. In one embodiment, the naturally derived material is a cellulose nanostructure such as a cellulose nanocrystal. The cellulose nanocrystal is processed using a base or mold structure to provide a cutting edge of any shape such as linear or circular edge structures. The process includes dual cure steps to produce an optimal cutting-edge structure without shrinkage. The formed cutting-edge structure can be utilized as a razor blade as it is formed with very sharp tip and edge suitable for cutting hair. The base structure can form one or more cutting-edge structures simultaneously.

A novel cutting-edge structure and method and apparatus for manufacturing the cutting-edge structure is provided. The cutting-edge structure is comprised of naturally derived or renewable material at greater than 50% by volume fraction. In one embodiment, the naturally derived material is a cellulose nanostructure such as a cellulose nanocrystal. The cellulose nanocrystal is processed using a base or mold structure to provide a cutting edge of any shape such as linear or circular edge structures. The process includes dual cure steps to produce an optimal cutting-edge structure without shrinkage. The formed cutting-edge structure can be utilized as a razor blade as it is formed with very sharp tip and edge suitable for cutting hair. The base structure can form one or more cutting-edge structures simultaneously.

A functional polymeric cutting edge structure and methods for manufacturing cutting edge structures using polymeric materials are provided. A razor blade for use in a razor cartridge or a blade box for assembly in a razor cartridge frame may be formed using the present invention.

A functional polymeric cutting edge structure and methods for manufacturing cutting edge structures using polymeric materials are provided. A razor blade for use in a razor cartridge or a blade box for assembly in a razor cartridge frame may be formed using the present invention.