A system and method for applying patterns to surfaces. A pattern may be applied to a surface of an object using a three-dimensional (3D) printer system. The 3D printer system may include a printer head including an applicator holding material used to form the pattern on the surface, a structure configured to hold a substrate to which the material will be applied, and a controller for adjusting a location of the printer head relative to a surface and initiating applying material from the applicator onto the surface. The applicator may be a syringe with a needle. 3D coordinates at which material is to be applied to a surface to form the pattern may be determined and identified based on a relative location of the substrate and the pattern. The pattern may be a speckle dot pattern used in Digital Image Correlation (DIC) material testing and characterization techniques.

A system and method for providing three-dimensional printing is disclosed. The three-dimensional printing technology includes enhanced functionality to provide better resolution printing, filtration of forming materials stored within a reservoir tank, and a simple and efficient cleaning process to remove debris from the reservoir subsequent to a printing cycle.

A system and method for providing three-dimensional printing is disclosed. The three-dimensional printing technology includes enhanced functionality to provide better resolution printing, filtration of forming materials stored within a reservoir tank, and a simple and efficient cleaning process to remove debris from the reservoir subsequent to a printing cycle.

A method of additively manufacturing an object comprises feeding a feedstock line into a delivery guide. The feedstock line has a length and comprises a continuous flexible line. The continuous flexible line has a peripheral surface. The feedstock line further comprises a covering, releasably coupled to the peripheral surface of the continuous flexible line. The method also comprises removing the covering from the peripheral surface of the continuous flexible line before the continuous flexible line is deposited along a print path and depositing the continuous flexible line along the print path using the delivery guide.

A method of additively manufacturing an object comprises feeding a feedstock line into a delivery guide. The feedstock line has a length and comprises a continuous flexible line. The continuous flexible line has a peripheral surface. The feedstock line further comprises a covering, releasably coupled to the peripheral surface of the continuous flexible line. The method also comprises removing the covering from the peripheral surface of the continuous flexible line before the continuous flexible line is deposited along a print path and depositing the continuous flexible line along the print path using the delivery guide.

An apparatus and device for creating a vertical strengthening feature within a 3D printed article of manufacture for improving mechanical performance in the Z-direction. Fill material is deposited in voids vertically crossing multiple layers during the build of 3D printing. The device includes a penetrating extension that fits within the void to create a vertical strengthening feature via heat and/or extruded fill material. The size and/or movement of the heated extension can impact the void side walls to reflow the build material and blend the layers together within the void side walls.

An apparatus and device for creating a vertical strengthening feature within a 3D printed article of manufacture for improving mechanical performance in the Z-direction. Fill material is deposited in voids vertically crossing multiple layers during the build of 3D printing. The device includes a penetrating extension that fits within the void to create a vertical strengthening feature via heat and/or extruded fill material. The size and/or movement of the heated extension can impact the void side walls to reflow the build material and blend the layers together within the void side walls.

A computer controlled additive manufacturing process in which a non-polymer material and a non-polymer liquid binder are combined to form a paste that is extruded into the volume enclosed by the target model after which a laser beam of sufficient energy is guided along the same extrusion path to remove some portion of liquid binder, transition the material from paste form into solid form, and/or bond the material to surrounding material.

A computer controlled additive manufacturing process in which a non-polymer material and a non-polymer liquid binder are combined to form a paste that is extruded into the volume enclosed by the target model after which a laser beam of sufficient energy is guided along the same extrusion path to remove some portion of liquid binder, transition the material from paste form into solid form, and/or bond the material to surrounding material.

In one example in accordance with the present disclosure, a method is described. The example method includes forming a lattice anchor with a build material in a powder bed of a three-dimensional (3D) printing system. The example method also includes forming a 3D object with the build material attached to the lattice anchor.