A process for producing an article by three-dimensional printing includes applying a 1,1-di-activated vinyl compound-containing liquid binder over a predetermined area of a layer of solid particles. The liquid binder infiltrates gaps between the solid particles to form a first cross-sectional layer of an article, and the 1,1-di-activated vinyl compound reacts to solidify the liquid binder and bind the solid particles in the first cross-sectional layer of the article. Also provided is an article produced by the three-dimensional printing process, set forth herein.

A fabrication method involving the use of additive material fabrication methods to create a shell representative of a desired part, the additive material shell being used in one or more molding fabrication methods in which a second material is provided into a cavity of the shell.

A fabrication method involving the use of additive material fabrication methods to create a shell representative of a desired part, the additive material shell being used in one or more molding fabrication methods in which a second material is provided into a cavity of the shell.

A method of moving a print head between a plurality of partitioned chambers in a 3D printer includes providing the 3D printer having a thermal barrier having an area defined by a length and width, wherein a print head nozzle can be positioned through the thermal barrier along the width or the length and at least two partitioned chambers below the area of the thermal barrier, wherein a first chamber comprises a printing chamber and a second chamber comprises a chamber providing another functionality. The method includes raising the print head in a z direction from the second chamber to above the thermal barrier and moving the print head in a x-y direction from above the second chamber over the partition to a location above the first chamber. The method also includes lowering the print head in the z direction and into the first chamber such that an extrusion port of a nozzle of the print head is proximate a x-y print plane.

A 3D printer includes a gantry configured to move in a plane and in a direction substantially normal to the plane and at least one print head carried by the gantry, the at least on print head comprising an extrusion nozzle at a bottom end. The 3D printer includes a plurality of partitioned chambers accessible by the at least one print head, each of the partitioned chambers having an upper edge defining an opening into each of the plurality of chambers, and a platen within a first chamber of the plurality of chambers, the platen configured to receive material from the print head to print the 3D part. The at least one print head is configured to be moved between each of the plurality of partitioned chambers by raising the print head in the direction substantially normal to the plane such that the extrusion nozzle is above the upper edge of the plurality of chambers, moving the print head in the plane from a first location above the first chamber of the plurality of partitioned chambers to a second location above a second chamber of the plurality of partitioned chambers and lowering the at least one print head into the second chamber.

A 3D printer includes a gantry configured to move in a plane and in a direction substantially normal to the plane and at least one print head carried by the gantry, the at least on print head comprising an extrusion nozzle at a bottom end. The 3D printer includes a plurality of partitioned chambers accessible by the at least one print head, each of the partitioned chambers having an upper edge defining an opening into each of the plurality of chambers, and a platen within a first chamber of the plurality of chambers, the platen configured to receive material from the print head to print the 3D part. The at least one print head is configured to be moved between each of the plurality of partitioned chambers by raising the print head in the direction substantially normal to the plane such that the extrusion nozzle is above the upper edge of the plurality of chambers, moving the print head in the plane from a first location above the first chamber of the plurality of partitioned chambers to a second location above a second chamber of the plurality of partitioned chambers and lowering the at least one print head into the second chamber.

Systems and methods for additive manufacturing. In some examples, a system includes a frame defining an interior volume and an overhead robotic arm suspended from a gantry on a ceiling of the frame. The system includes manufacturing subsystems located within the interior volume of the frame. The system includes a control system configured for controlling the overhead robotic arm for parts movement among additive manufacturing processes using the manufacturing subsystems. The manufacturing subsystems can include one or more of: a microassembly station, an aerosol jetting print station, an intense pulsed light (IPL) photonic sintering station, a fiber weaving station, and a 3D printing station.

An example system includes an object and a support frame supporting the object. The support frame constrains movement of the object relative to the support frame, and the support frame includes at least one of a cage or a shackle to non-rigidly constrain movement of at least a part of the object.

An example system includes an object and a support frame supporting the object. The support frame constrains movement of the object relative to the support frame, and the support frame includes at least one of a cage or a shackle to non-rigidly constrain movement of at least a part of the object.

Provided are systems and methods for forming a casing liner in a wellbore of a hydrocarbon well. The forming including disposing a casing liner print head in an annular region located between a casing pipe disposed in a wellbore of a hydrocarbon well and a wall of the wellbore, conducting a downhole lining operation including operating the casing liner print head to eject casing liner integrated structure material into the annular region to form, in the annular region, a casing liner integrated structure including contiguous voids formed in the casing liner integrated structure material, and depositing a cementitious material into the contiguous voids formed in the casing liner material to form, in the annular region, a casing liner including the casing liner integrated structure material and the cementitious material.