An object can be made one section at a time, that is layerwise, using an apparatus for making an object using a stereolithographic method. Disclosure generally relates to an apparatus for making a stereolithographic object and a method for making a stereolithographic object. An apparatus (100) for making an object (122) is disclosed.

An object can be made one section at a time, that is layerwise, using an apparatus for making an object using a stereolithographic method. Disclosure generally relates to an apparatus for making a stereolithographic object and a method for making a stereolithographic object. An apparatus (100) for making an object (122) is disclosed.

A build-plate with integrally-formed spinal implant constructs and a method used in forming spinal implant constructs on the build-plate and machining the spinal implant constructs formed on the build-plate to manufacture spinal implants is provided. The spinal implant constructs can be formed via additive manufacturing processes by adding material to an upper surface of the build-plate, and then the spinal implant constructs can be subjected to subtractive manufacturing processes to form the spinal implants.

A build-plate with integrally-formed spinal implant constructs and a method used in forming spinal implant constructs on the build-plate and machining the spinal implant constructs formed on the build-plate to manufacture spinal implants is provided. The spinal implant constructs can be formed via additive manufacturing processes by adding material to an upper surface of the build-plate, and then the spinal implant constructs can be subjected to subtractive manufacturing processes to form the spinal implants.

Joiners, methods of joining, and related systems for additive manufacturing are provided. The method of joining includes bulk depositing, by an additive manufacturing tool head, a joiner (anchor) of a second material in a receptacle in a body of a first material. Also, the method of joining includes depositing an anchor layer of a third material upon the anchor. Networks of joiners in 3D printed parts, multi-material parts comprising joiners, computer program products for providing joiners, joiner systems including trolleys, and related methods and systems are also provided. Further provided is a system, and method, for securing a part to a build platform and separating the part from the build platform.

Joiners, methods of joining, and related systems for additive manufacturing are provided. The method of joining includes bulk depositing, by an additive manufacturing tool head, a joiner (anchor) of a second material in a receptacle in a body of a first material. Also, the method of joining includes depositing an anchor layer of a third material upon the anchor. Networks of joiners in 3D printed parts, multi-material parts comprising joiners, computer program products for providing joiners, joiner systems including trolleys, and related methods and systems are also provided. Further provided is a system, and method, for securing a part to a build platform and separating the part from the build platform.

A system for producing pharmaceutical objects, such as tablets, granules and capsules, via 3D printing. The system comprises a 3D printing machine (2) with a mechanical system (3) movable in one or more directions, at least one print head (5) with a nozzle (37) being movable by the mechanical system and a base system (4) carrying a print base (6) for receiving a prepared mixture (27) applied by the print head (5). The system comprises at least one carrier (35) for holding a cartridge (28). Printing is done at formatted print locations (49) on the base (6). A method for producing pharmaceutical objects by providing at least one pharmaceutical substance in at least one cartridge, placing the cartridge in a carrier, establishing a fluid connection between a cartridge and a print head, moving the print head nozzle according to a program and dispensing the pharmaceutical substance to a print base.

A system for producing pharmaceutical objects, such as tablets, granules and capsules, via 3D printing. The system comprises a 3D printing machine (2) with a mechanical system (3) movable in one or more directions, at least one print head (5) with a nozzle (37) being movable by the mechanical system and a base system (4) carrying a print base (6) for receiving a prepared mixture (27) applied by the print head (5). The system comprises at least one carrier (35) for holding a cartridge (28). Printing is done at formatted print locations (49) on the base (6). A method for producing pharmaceutical objects by providing at least one pharmaceutical substance in at least one cartridge, placing the cartridge in a carrier, establishing a fluid connection between a cartridge and a print head, moving the print head nozzle according to a program and dispensing the pharmaceutical substance to a print base.

The present disclosure relates to a 3D printer (1) for 3D printing of a construct. The 3D printer (1) has a print bed (2). The 3D printer further comprises at least one actuating tool head (3) with an extrusion element (4), wherein the extrusion element and the print bed are movable in relation to each other. The 3D printer also comprises at least one sensor (5) arranged to sense a force applied to the print bed (2) by the extrusion element (4), or vice versa. The 3D printer additionally comprises a control element (7) arranged to detect when the sensed force exceeds a predetermined value and to record a position of the print bed or extrusion element related to the detection that the predetermined value is exceeded. The present disclosure also relates to corresponding methods and computer programs.

The present disclosure relates to a 3D printer (1) for 3D printing of a construct. The 3D printer (1) has a print bed (2). The 3D printer further comprises at least one actuating tool head (3) with an extrusion element (4), wherein the extrusion element and the print bed are movable in relation to each other. The 3D printer also comprises at least one sensor (5) arranged to sense a force applied to the print bed (2) by the extrusion element (4), or vice versa. The 3D printer additionally comprises a control element (7) arranged to detect when the sensed force exceeds a predetermined value and to record a position of the print bed or extrusion element related to the detection that the predetermined value is exceeded. The present disclosure also relates to corresponding methods and computer programs.