Embodiments herein relate to hollow profiles and methods of preparing the same for joining operations. A method herein can include placing a dam within a channel defined by the hollow profile, fitting a die block over an end of the channel, and injecting a flowable composition through an injection port into the channel. Another method can include defining a volume within a first member using at least one flow control device, filling the defined volume with a flowable polymeric composition, allowing the flowable polymeric composition to solidify to form a solid portion in the first member, and mechanically modifying the solid portion to define a joining surface suitable for joining to the second member. Other embodiments are also included herein.

Goggles are described as including an outrigger, an elastic band, and one or more cages. The elastic band is coupled to the cage, which may then be disposed within an opening of the outrigger. Thus, the elastic band may be coupled to the outrigger and, accordingly, to the goggle frame, through the cage. Such a configuration may allow for the elastic band to have a stronger and more compact coupling to the outrigger and/or goggle frame. The cage may comprise metal or another material stronger than the material of the goggle frame and/or the outrigger. Furthermore, the cage may be more compact (e.g., narrower) than a typical connection while maintaining or improving strength.

A method for fabricating a neurostimulation stimulation lead includes providing a plurality of ring components and hypotubes. An insulative coating is disposed on at least one of (i) inner surfaces of the ring components or (ii) the hypotubes. The method includes welding the hypotubes to the inner surfaces of the ring components, and molding an insulative material to fill interstitial spaces between the ring components and the hypotubes that are welded to form a stimulation tip component of the stimulation lead. The method includes forming segmented electrodes from the ring components after performing the molding.

A molding apparatus is used, the apparatus including a mold made up of a first mold, a second mold opposite the first mold, and an intermediate mold disposed between the first mold and the second mold. The apparatus further includes a support member configured to support the intermediate mold, and an injection mechanism configured to inject molten resin. The support member includes a rotating mechanism. The intermediate mold is mounted on the rotating mechanism such as to rotate coaxially with the rotation axis of the rotating mechanism.

A tubing system with a coupler join positioned between and joining tubing segments. The coupler join is formed to reduce dead legs and hold up volumes within, and/or to reduce materials used to form, and/or to simplify the manufacturing process of the tubing system. The coupler join may be sized, shaped, configured, and/or dimensioned to join tubing segments, such as pre-formed tubing segments, in a streamlined configuration, such as to substantially correspond with the outer and inner diameters of the tubing segments. The tubing system and coupler join may be formed with a mold configured to form a coupler join securely coupling spaced apart ends of tubing segments to be joined together in a configuration which reduces dead legs and hold up volumes within the resulting tubing system.

Embodiments herein relate to hollow profiles and methods of preparing the same for joining operations. A method herein can include placing a dam within a channel defined by the hollow profile, fitting a die block over an end of the channel, and injecting a flowable composition through an injection port into the channel. Another method can include defining a volume within a first member using at least one flow control device, filling the defined volume with a flowable polymeric composition, allowing the flowable polymeric composition to solidify to form a solid portion in the first member, and mechanically modifying the solid portion to define a joining surface suitable for joining to the second member. Other embodiments are also included herein.