Embodiments of the present disclosure are drawn to additive manufacturing apparatus and methods. An exemplary additive manufacturing method may include forming a part using additive manufacturing. The method may also include bringing the part to a first temperature, measuring the part along at least three axes at the first temperature, bringing the part to a second temperature, different than the first temperature, and measuring the part along the at least three axes at the second temperature. The method may further include comparing the size of the part at the first and second temperatures to calculate a coefficient of thermal expansion, generating a tool path that compensates for the coefficient of thermal expansion, bringing the part to the first temperature, and trimming the part while the part is at the first temperature using the tool path.

The present invention generally relates to a system and method for using a volatile organic compound (VOC) free low radiant flux LED UV curable composition, and more particularly to unique and novel uses of the composition such as one or two or more of a fire retardant, clear coat, composite material, resin, top coat, improved holdout coating, a sealant coat, and combinations of the same.

According to one embodiment of the present disclosure, a vehicle knuckle is provided. The vehicle knuckle according to one embodiment of the present disclosure may comprise a knuckle body provided with a wheel bearing installation hole configured to install a wheel bearing, and flanges extending from the knuckle body and used to connect the vehicle knuckle to other parts of a vehicle. The knuckle body and the flanges may be integrally formed of carbon chip materials.

According to one embodiment of the present disclosure, a vehicle knuckle is provided. The vehicle knuckle according to one embodiment of the present disclosure may comprise a knuckle body provided with a wheel bearing installation hole configured to install a wheel bearing, and flanges extending from the knuckle body and used to connect the vehicle knuckle to other parts of a vehicle. The knuckle body and the flanges may be integrally formed of carbon chip materials.

A system for post-print processing of 3D printed parts includes an automated breakout system for separating 3D printed parts from printing media in a tray and a vibratory media cleaning system for removing printing media from the 3D printed parts. The automated breakout system includes a tray input mechanism, a bed including a first end disposed adjacent the tray input mechanism, the bed including one or more passageways configured to pass printing media through the bed, a vibration generator coupled to the bed and configured to vibrate the bed, and a part terminator disposed adjacent a second end of the bed. The vibratory media cleaning system include a vibratory bin, a vibration generator coupled to the vibratory bin and configured to vibrate the vibratory bin, an automated parts loader configured to introduce 3D printed parts to be cleaned into the bin, and an automated parts removal mechanism.

A method of forming a nonwoven article comprising receiving fibrous material comprising thermoplastic fibers; processing the fibrous material to produce short fibers, wherein the processing step comprises granulation using at least one granulator with a screen; distributing the short fibers approximately evenly across an area to form a short fiber web, wherein the distributing step comprises a use of a recyclate spreader; heating the short fiber web to fuse the short fibers to form a nonwoven material; and forming a sheet of the nonwoven material.

Molded rubber objects may be molded and de-molded by defining both a desired final form for the molded rubber object and a tab extending from the final form of the molded rubber object using a cavity in a mold. Rubber pellets may be dispensed in predetermined amounts at desired location(s) within the cavity to provide the rubber needed to form the molded rubber object. Heat and pressure may be applied to the mold to cause the rubber pellets to fill the cavity defining both the desired final form of the molded rubber object and the tab. After the heat and pressure has been applied, a gripping device may grasp the tab and move the tab in a direction and with sufficient force to peel the rubber object from the mold cavity. If desired, the tab may be removed from the molded rubber object.

Molded rubber objects may be molded and de-molded by defining both a desired final form for the molded rubber object and a tab extending from the final form of the molded rubber object using a cavity in a mold. Rubber pellets may be dispensed in predetermined amounts at desired location(s) within the cavity to provide the rubber needed to form the molded rubber object. Heat and pressure may be applied to the mold to cause the rubber pellets to fill the cavity defining both the desired final form of the molded rubber object and the tab. After the heat and pressure has been applied, a gripping device may grasp the tab and move the tab in a direction and with sufficient force to peel the rubber object from the mold cavity. If desired, the tab may be removed from the molded rubber object.

A mold separation device includes a carrying mechanism, a scraping mechanism, and two separation mechanisms. The carrying mechanism is adapted to carry a first mold and a second mold bonded to the first mold. The scraping mechanism is disposed at an edge of the carrying mechanism and is adapted to scrape off a spilled glue produced when the first mold is bonded to the second mold. The separation mechanisms are disposed at the edge of the carrying mechanism and are located on two opposite sides of the scraping mechanism. The separation mechanisms are adapted to pull open the first mold and the second mold so that the first mold and the second mold are separated from each other.

The present invention generally relates to a system and method for using a volatile organic compound (VOC) free low radiant flux LED UV curable composition, and more particularly to unique and novel uses of the composition such as one or two or more of a fire retardant, clear coat, composite material, resin, top coat, improved holdout coating, a sealant coat, and combinations of the same.