A method is provided involving an additive manufacturing system. This method includes a step of forming a first fluid conduit using the additive manufacturing system. The method also includes a step of providing a fluid coupling. The fluid coupling includes the first fluid conduit and a second fluid conduit. The first fluid conduit is connected to and fluidly coupled with the second fluid conduit. The first fluid conduit has a first configuration. The second fluid conduit has a second configuration that is different than the first configuration.

A vehicle body assembling apparatus includes a lower jig, an upper jig movable by an arm of a robot, and a joining device. The joining device performs joining operations for lower component parts (e.g., a temporary assembly of a rear floor frame) transported by the upper jig and positioned by the lower jig, upper component parts (e.g., a temporary assembly of a rear floor panel) held by the upper jig, and a temporary assembly of a vertical assembly (e.g., rear floor component) formed by overlapping the upper assembly with the lower assembly, above the lower jig at different timings.

A method for assembling a section of a gas turbine engine is disclosed. The method involves aligning a vane ring with a first rotor hub such that a row of vanes on the vane ring is adjacent a first row of blades of the first rotor hub, and aligning a second rotor hub with the vane ring such that a second row of blades of the second rotor hub is adjacent the row of vanes and the row of vanes is axially between the first row of blades and the second row of blades. The first hub and the second hub are then non-mechanically bonded together.

A flame cell of a flame arrestor may include a body of a first material having a first end, a second end, and a plurality of channels formed in the body and extending from the first end to the second end of the body. The flame cell may also include an element of a second material coupled to the body, the second material being different from the first material. The element may be configured to draw heat away from fluid flowing through the plurality of channels.

Plunger sub-assemblies for automatic injectors include a plunger outer having one or more engagement prongs, a plunger inner having one or more engagement slots which correspond with the engagement prongs of the plunger outer, and a retraction biasing member. The retraction biasing member is retained in a first energized state between the plunger outer and plunger inner when the engagement prongs of the plunger outer are releasably engaged with the engagement slots of the plunger inner. The one or more engagement prongs are capable of flexing substantially radially to release from engagement with the engagement slots of the plunger inner to permit the retraction biasing member to expand from the first energized state to a second expanded state. An automatic injector having a plunger sub-assembly includes a housing, an activation mechanism, and a plunger sub-assembly at least partially mounted within a syringe cartridge having a needle assembly.

A multi-component end cap is provided. The multiple components combine to form one or more seal carriers where each seal carrier is formed in part by at least two different ones of the components. Methods of manufacturing an end cap having multiple components are also provided.

An apparatus for assembling a solid hydrogen storage system includes a lower support installed to support a lower side of material blocks to be assembled, split covers assembled in multiple stages on an upper side of the lower support and forming therein a closed space in which the material blocks are capable of being assembled, the split covers being configured to be separated in a horizontal direction, and gas injection ports provided in the split covers to inject an inert gas into an inner space of the split covers.

A method is provided involving an additive manufacturing system. This method includes a step of forming a first fluid conduit using the additive manufacturing system. The method also includes a step of providing a fluid coupling. The fluid coupling includes the first fluid conduit and a second fluid conduit. The first fluid conduit is connected to and fluidly coupled with the second fluid conduit. The first fluid conduit has a first configuration. The second fluid conduit has a second configuration that is different than the first configuration.

An inflatable game ball includes a cover formed from a plurality of panel segments attached along peripheral edges. Each panel segment an outer panel portion, having a first shape and a first size, and an inner panel portion, having the first shape and a second size, smaller than the first size. The outer panel portion is joined with the inner panel portion, such that peripheral edges of the outer panel portion are aligned, and parallel, with peripheral edges of the inner panel portion. An inflatable bladder is disposed within the cover and movable between deflated and fully-inflated conditions. When the inflatable bladder is deflated, an interior surface of the outer panel portions is separated from a top surface of the inner panel portions by a first distance. When the inflatable bladder is fully-inflated, the interior surface is in contact with the top surface of the inner panel portions.

Plunger sub-assemblies for automatic injectors include a plunger outer having one or more engagement prongs, a plunger inner having one or more engagement slots which correspond with the engagement prongs of the plunger outer, and a retraction biasing member. The retraction biasing member is retained in a first energized state between the plunger outer and plunger inner when the engagement prongs of the plunger outer are releasably engaged with the engagement slots of the plunger inner. The one or more engagement prongs are capable of flexing substantially radially to release from engagement with the engagement slots of the plunger inner to permit the retraction biasing member to expand from the first energized state to a second expanded state. An automatic injector having a plunger sub-assembly includes a housing, an activation mechanism, and a plunger sub-assembly at least partially mounted within a syringe cartridge having a needle assembly.