Embodiments of the present invention provide for a material extrusion system for three-dimensional (3D) printing/additive manufacturing. The material extrusion system can include a nozzle head configured to extrude a liquefied material of variable widths through an adjustable orifice, wherein the nozzle head can change sizes during a line to compensate for wider or thinner wall thickness.

Embodiments of the present invention provide for a material extrusion system for three-dimensional (3D) printing/additive manufacturing. The material extrusion system can include a nozzle head configured to extrude a liquefied material of variable widths through an adjustable orifice, wherein the nozzle head can change sizes during a line to compensate for wider or thinner wall thickness.

A method may include fused filament fabricating a fused filament fabricated component by delivering a softened filament to selected locations at or adjacent to a build surface. The softened filament may include a sacrificial binder and a powder including a shape memory alloy (SMA). The method also may include removing substantially all the sacrificial binder from the fused filament fabricated component to leave an unsintered component; and sintering the unsintered component to join particles of the SMA and form an SMA component.

A method may include fused filament fabricating a fused filament fabricated component by delivering a softened filament to selected locations at or adjacent to a build surface. The softened filament may include a sacrificial binder and a powder including a shape memory alloy (SMA). The method also may include removing substantially all the sacrificial binder from the fused filament fabricated component to leave an unsintered component; and sintering the unsintered component to join particles of the SMA and form an SMA component.

A quick release hotend is disclosed. The hotend includes a base having an input portion and an engaging recess, an engaging member having a first engaging portion and a second engaging portion, and a body having a protruding ring and a feeding inlet. The base has a through-hole penetrating the input portion and communicating with the engaging recess, and the base has a chamber in which an elastic element is disposed. The first engaging portion is separably coupled to the base and abut against the elastic element. The protruding ring is engaged with the engaging recess to communicate the feeding inlet with the through-hole. The body has a concave portion to which the second engaging portion is separably coupled. The body has a nozzle to which the raw material imported from the feeding inlet is guided.

A quick release hotend is disclosed. The hotend includes a base having an input portion and an engaging recess, an engaging member having a first engaging portion and a second engaging portion, and a body having a protruding ring and a feeding inlet. The base has a through-hole penetrating the input portion and communicating with the engaging recess, and the base has a chamber in which an elastic element is disposed. The first engaging portion is separably coupled to the base and abut against the elastic element. The protruding ring is engaged with the engaging recess to communicate the feeding inlet with the through-hole. The body has a concave portion to which the second engaging portion is separably coupled. The body has a nozzle to which the raw material imported from the feeding inlet is guided.

Described herein are additive manufacturing systems and methods for printing 3D objects.

Described herein are additive manufacturing systems and methods for printing 3D objects.

A method for producing a three-dimensional shaped article includes a first shaping step of shaping a first portion of the three-dimensional shaped article by ejecting a shaping material to a stage, and a second shaping step of shaping a second portion of the three-dimensional shaped article having an overlapping portion overlapping with the first portion, and a non-overlapping portion that does not overlap with the first portion, that forms a space between the same and the first portion, and that is in contact with the overlapping portion at one end. In the second shaping step, the overlapping portion is shaped by ejecting the shaping material onto the first portion, and thereafter, the non-overlapping portion is shaped by ejecting the shaping material so as to be in contact with the overlapping portion.

A method for producing a three-dimensional shaped article includes a first shaping step of shaping a first portion of the three-dimensional shaped article by ejecting a shaping material to a stage, and a second shaping step of shaping a second portion of the three-dimensional shaped article having an overlapping portion overlapping with the first portion, and a non-overlapping portion that does not overlap with the first portion, that forms a space between the same and the first portion, and that is in contact with the overlapping portion at one end. In the second shaping step, the overlapping portion is shaped by ejecting the shaping material onto the first portion, and thereafter, the non-overlapping portion is shaped by ejecting the shaping material so as to be in contact with the overlapping portion.