Methods, systems, and devices for manufacturing a wearable ring device are described. A printed circuit board (PCB) may be connected to an inner cover, where one or more apertures of the inner cover are aligned with one or more sensors of the PCB. Additionally, an injection molding process may be performed to fill a cavity between the inner cover and a surface of one or more molds with a filler material. The filler material may bind the PCB to the inner cover and fill the one or more apertures with the filler material, creating a ring assembly. Following the injection molding process, an outer cover may be placed around the ring assembly and one or more side covers may engage to secure the inner cover to the outer cover.

A method and system are disclosed. A method of printing onto a base having an upper surface spaced from a lower surface by a base thickness includes dispensing a yarn from a nozzle of a printing system and selectively attaching the yarn to a first attachment region. The step of dispensing the yarn includes dispensing a heat-moldable material and a melt-resistant material. The step of selectively attaching the yarn to the first attachment region includes moving the nozzle into the first attachment region. The step of moving the nozzle into the first attachment region reduces the base thickness by a prodding distance. The heat-moldable material bonds to the first attachment region.

Systems and methods of manipulating a color displayed by an article of wear comprising iron oxide colloidal nanocrystals arranged within chains are described. Steps may include forming the article of wear from a raw material that include the chains of nanocrystals, applying a magnetic field to the raw material, applying energy to at least some of the chains of nanocrystals to soften materials within the raw material immediately surrounding the chains of nanocrystals to which the energy is applied, adjusting a strength of the magnetic field to control the color displayed by the raw material, removing the energy to allow the materials within the raw material immediately surrounding the chains of nanocrystals to harden and fix a location of the nanocrystals within the chains, and removing the magnetic field.

A device for monitoring athletic activity of a user. In one example, the device has a sensor, and executes a calibration process using data received from the sensor to determine a correct positioning of the device on the user.

A yarn or thread may include a plurality of substantially aligned filaments, with at least ninety-five percent of a material of the filaments being a thermoplastic polymer material. Various woven textiles and knitted textiles may be formed from the yarn or thread. The woven textiles or knitted textiles may be thermal bonded to other elements to form seams. A strand that is at least partially formed from a thermoplastic polymer material may extend through the seam, and the strand may be thermal bonded at the seam. The woven textiles or knitted textiles may be shaped or molded, incorporated into products, and recycled to form other products.

The present invention relates to three dimensional (3D) printed garments and any wearable article, as well as to processes and methods of manufacturing the same. Image information obtained from a subject, for example, images and information related to a subject's body or body part(s) is used to generate a garment or wearable object with a customized fit. In particular, the present invention provides the collection of a subject's data (e.g., using image acquisition devices, methods and software), and use of the data to create a model (e.g., virtual model) that in turn is used to create a subject specific article of clothing or other wearable object.

Embodiments of this application relate to systems and methods which allow for 3-D printed objects, such as eyeglasses and wristwatches, for example, to be customized by users according to modification specifications that are defined and constrained by manufacturers. These modification specifications may be constrained by the manufacturers based on factors relating to the printability of a modified design.

A method of making a ballistic resistant composite material having improved resistance to high energy rifle bullets and the like. The method comprises providing at least one fibrous layer comprising a network of high tenacity aramid fibers. The fibrous layer is coated with a thermoplastic polyurethane resin. The coated fibrous layer is molded at a pressure of at least about 1,500 psi (10.3 MPa). Preferably, a plurality of fibrous layers are employed, each of which is formed from to unidirectionally oriented aramid fibers in a thermoplastic polyurethane resin matrix. Adjacent fibrous layers are preferably oriented at 90 with respect to each other.

A fashion system including a shaped garment comprising a base material and a removable drape is provided herein. The removable drape may be attached to the base material such that corresponding shapes of the base material and the removable drape cooperate to hold the removable drape in place. The base material may be formed using a geometric cutting technique and the removable drape may be formed using a thermoforming technique to create a complementary drape system.

Liquid Crystal Elastomer (LCE) fibers, an apparatus for manufacturing, and a method for using the apparatus are provided. LCE fibers formed from each of a plurality of resin recipes can undergo reversible temperature driven actuation of the fiber. Each of the resin recipes forms a fiber having a different actuation temperature. The apparatus includes: an extrusion device, a drawing bobbin, a coating basin, a collector bobbin, a first plurality of curing devices, and a second plurality of curing devices, to transform a resin recipe into a LCE fiber. In operation, the extrusion device extrudes the resin through to the first plurality of curing devices for a partial cure. Once in contact with drawing bobbin the resin is coated in a fluid, and then pull through the second plurality of curing devices for a final cure by collector bobbin, where it can be collected and post-processed.