Disclosed are a method of manufacturing a smart ring and a smart ring manufactured through the method. The method of the present invention comprises: an outer cover unit processing process (S110) of processing and manufacturing an outer cover unit 100 having a ring shape of a smart ring and accommodating a sensor/communication module; a sensor/communication module process (S120) of manufacturing the manufacturing sensor/communication module 200 including a sensor module for sensing a biological signal of a smart ring user; an outer cover unit and sensor/communication module assembly manufacturing process (S200) of forming a ring-shaped outer cover unit and sensor/communication module the assembly by accommodating sensor/communication module 200 in the ring-shaped inside of the outer cover unit 100; an inner molded unit processing process (S300) of creating an inner molded unit 300 having a hole of a predetermined shape, into which a smart ring user's finger is inserted, inside the ring-shaped outer cover unit and sensor/communication module assembly; a sensing window forming process (S400) of forming a sensing window, which is an area that passes a signal or light needed for the sensor module to sense biological signals of the smart ring user, on an inner surface of the inner molded unit 300, wherein in the inner molded unit processing process (S300), the inner molded unit 300 is created by filling a molding member in an entire inner area of the ring-shaped assembly, and cutting a hole of a predetermined shape at a center of the filled molding member.

The present disclosure relates to a method for producing a plate-shaped workpiece. The method can include providing a plate-shaped raw workpiece, dividing up the raw workpiece to form one or more workpieces, applying a strip-shaped coating material to one or more narrow surfaces of the at least one workpiece, and machining the at least one workpiece. The method can be performed such that at least one wide surface is printed in a first digital printing process and at least one narrow surface provided with the strip-shaped coating material is printed in a second digital printing process. Further, the first and second printing processes can be performed after division of the raw workpiece.

A stretch-blown plastic container, includes a container body which encloses a filling volume with a container bottom; a container neck which adjoins an opposite end of the container body, having a container opening and an integrated handle region, the handle region being hollow and joined to the filling volume which is enclosed by the container body; and between the handle region and the container body, a through opening recessed and bordered over its entire periphery by wall parts of the container body and of the handle region which have been welded to one another.

A biodegradable and biocompatible nontoxic polymeric composition is provided which includes a base material such as a crystallizable polymer, copolymer, or terpolymer, and a copolymer or terpolymer additive. Medical devices manufactured from the composition are also provided.

A structure for use in a compressible resilient pad. The structure contains both axially elastomeric strands and relatively inelastic strands co-extruded in various patterns. The structure has a high degree of both compressibility under an applied normal load and excellent recovery (resiliency or spring back) upon removal of that load.

A biodegradable and biocompatible nontoxic polymeric composition is provided which includes a base material such as a crystallizable polymer, copolymer, or terpolymer, and a copolymer or terpolymer additive. Medical devices manufactured from the composition are also provided.

A biodegradable and biocompatible nontoxic polymeric composition is provided which includes a base material such as a crystallizable polymer, copolymer, or terpolymer, and a copolymer or terpolymer additive. Medical devices manufactured from the composition are also provided.

A method for forming a plastic support shell of a sole includes the steps of placing a sheet material into a first mold assembly; softening the sheet material; vacuum plastic molding; putting the plastic semi product into a cutting mold assembly; cutting the waste edge; putting into a trimming mold assembly; and trimming with a mechanical arm. The carrying mold and the pressing mold press against the inner and outer surfaces of the plastic semi product, and the restricting edge and the support edge are used to define a cutting line. Therefore, the plastic semi product can be firmly positioned and held tight, and then the mechanical arm can trim the plastic semi product under the guiding of the restricting edge and the support edge, which makes the trimming process easy and precise.

A biodegradable and biocompatible nontoxic polymeric composition is provided which includes a base material such as a crystallizable polymer, copolymer, or terpolymer, and a copolymer or terpolymer additive. Medical devices manufactured from the composition are also provided.

A molding system includes a flexible cable carrier body that defines a sealing opening that provides access to an interior channel. A continuous length of the flexible cable carrier body is wrapped about a spool for storage and for ease of dispensing at a work site. The continuous length of the cable carrier body is cut to desired custom lengths during installation at the work site. An insertion tool having a plow and feeder channel can facilitate payoff of the fiber/cable into the cable carrier body.