In some examples, an additive manufacturing technique for forming a vacuum insulator. For example, a method including forming an article including a first layer, a second layer, and at least one support member extending between the first and second layer by depositing a filament via a filament delivery device, wherein the filament includes a sacrificial binder and a powder, and wherein the first layer, second layer, and at least one support member define an open cavity within the article; removing the binder; and sintering the article to form the vacuum insulator, wherein the vacuum insulator defines a vacuum environment in the cavity.

A composite filament includes a core particle comprising a styrene/acrylate polymer resin, and a shell comprising a styrene/acrylate ionomer resin, wherein the styrene/acrylate ionomer resin comprises a metal ion acrylate monomer, and methods of making thereof. Various articles can be manufactured from such composite filaments.

A hand-held three-dimensional drawing device can include an anti-rotation mechanism that can restrict rotation of a filament moving through the device. The anti-rotation mechanism can have a filament-engaging component in a passage of the anti-rotation mechanism and positioned to engage and restrict rotation a filament extending through the passage. The drawing device can also include a moveable member to control an operation of the drawing device. The moveable member can include a rotatable control mechanism including a portion of an outer profile of a housing of the device. Finally, the drawing device can also include a cover member comprising a portion of an outer profile of housing of the device and positioned adjacent to an actuator to control an operation of the device.

Three-dimensional effect or structure with a strong bond may be achieved on any surface such as on wood, stone, paper, ceramic, and rubber/polymer, sponge/foam, cloth, and glass, cement, building structures or metals. Before application of tile 3D structure, the surface is first prepared with at least on a layer that can bind a subsequent layer. This tie (compatible) layer material may comprise of the adhesive layer and another tie (compatible) layer such as thermoplastic film or coating. 3D printing filament materials with a different set of properties are combined using unique methods, apparatus to produce new structures, effects or parts with a unique combination of properties. Continuous application of tie layer and 3D printing for unique small or large objects can be achieved.

The present disclosure provides various aspects for mobile and automated processing utilizing additive manufacturing. The present disclosure includes methods for adding line features to a roadway surface. In some examples, the line features may include wires, conduits and electronic components. In some examples, the mobile additive manufacturing apparatus may create communication means into an advanced roadway in line features, which may be used for various communications including communications to and from autonomous vehicles. The communications may involve data related to the operation of systems of autonomous vehicles. In other examples, the line features may be dynamically colored with LED components.

The present disclosure provides various aspects for mobile and automated processing utilizing additive manufacturing. The present disclosure includes methods for adding line features to a roadway surface. In some examples, the line features may include wires, conduits and electronic components. In some examples, the mobile additive manufacturing apparatus may create communication means into an advanced roadway in line features, which may be used for various communications including communications to and from autonomous vehicles. The communications may involve data related to the operation of systems of autonomous vehicles. In other examples, the line features may be dynamically colored with LED components.

The present invention relates to an article fabrication system having a plurality of material deposition tools containing one or more materials useful in fabricating the article, and a material deposition device having a tool interface for receiving one of the material deposition tools. A system controller is operably connected to the material deposition device to control operation of the material deposition device. Also disclosed is a method of fabricating an article using the system of the invention and a method of fabricating a living three-dimensional structure.

The present invention relates to an article fabrication system having a plurality of material deposition tools containing one or more materials useful in fabricating the article, and a material deposition device having a tool interface for receiving one of the material deposition tools. A system controller is operably connected to the material deposition device to control operation of the material deposition device. Also disclosed is a method of fabricating an article using the system of the invention and a method of fabricating a living three-dimensional structure.

One embodiment of the present disclosure provides a nozzle device for an FDM-type 3D printer, comprising: a filament supply unit to which a filament for FDM is supplied; a filament nozzle which is positioned on the lower part of the filament supply unit, and which melts the filament received from the filament supply unit so as to output the molten filament; a heater block provided on the circumference of the filament nozzle to melt the filament inside the filament nozzle; a humidifier for generating vapor; and a transfer pipeline, which transfers the vapor of the humidifier to spray same onto the molten filament.

One embodiment of the present disclosure provides a nozzle device for an FDM-type 3D printer, comprising: a filament supply unit to which a filament for FDM is supplied; a filament nozzle which is positioned on the lower part of the filament supply unit, and which melts the filament received from the filament supply unit so as to output the molten filament; a heater block provided on the circumference of the filament nozzle to melt the filament inside the filament nozzle; a humidifier for generating vapor; and a transfer pipeline, which transfers the vapor of the humidifier to spray same onto the molten filament.