A ring gear used in a mechanical exfoliation apparatus having a plurality of canisters to hold particulate material and media is provided. The ring gear having an inside surface, an outside surface, a front face, and a back face. The inside surface defining a plurality of beveled gear teeth and the outside surface defining a plurality of recesses that are configured to accommodate the plurality of canisters of the mechanical exfoliation apparatus.

A ring gear used in a mechanical exfoliation apparatus having a plurality of canisters to hold particulate material and media is provided. The ring gear having an inside surface, an outside surface, a front face, and a back face. The inside surface defining a plurality of beveled gear teeth and the outside surface defining a plurality of recesses that are configured to accommodate the plurality of canisters of the mechanical exfoliation apparatus.

A device for forming circumferential grooves in pipe elements uses multiple geared cam bodies mounted on a carriage which rotates about a fixed pinion. The gears engage with the pinion which causes the geared cam bodies to rotate relative to the carriage. Traction surfaces and cam surfaces on the cam bodies traverse the outer surface of the pipe element and impress a circumferential groove therein. To substantially prevent rotation of the pipe element the pitch circle diameter of the pinion equals the outer diameter of the pipe element and the pitch circle diameters of the traction surfaces equal the pitch circle diameters of the gears.

Apparatus and system of components to mechanically exfoliate particulate materials using a multi-axis approach to deliver predetermined forces to a particulate material, including containers to hold particulate material and media, also including media, and, the associated parameters for operating such equipment along with methods and compositions provided by the apparatus and methods.

Apparatus and system of components to mechanically exfoliate particulate materials using a multi-axis approach to deliver predetermined forces to a particulate material, including containers to hold particulate material and media, also including media, and, the associated parameters for operating such equipment along with methods and compositions provided by the apparatus and methods.

Apparatus and system of components to mechanically exfoliate particulate materials using a multi-axis approach to deliver predetermined forces to a particulate material, including containers to hold particulate material and media, also including media, and, the associated parameters for operating such equipment along with methods and compositions provided by the apparatus and methods.

Apparatus and system of components to mechanically exfoliate particulate materials using a multi-axis approach to deliver predetermined forces to a particulate material, including containers to hold particulate material and media, also including media, and, the associated parameters for operating such equipment along with methods and compositions provided by the apparatus and methods.

A carrier assembly for canisters of a mechanical exfoliation apparatus, the carrier assembly including a hub having an external surface and an open center therethrough with an internal surface, at least two bearings mounted on the internal surface of the hub, and a canister cradle integrally extending from the external surface of the hub.

A carrier assembly for canisters of a mechanical exfoliation apparatus, the carrier assembly including a hub having an external surface and an open center therethrough with an internal surface, at least two bearings mounted on the internal surface of the hub, and a canister cradle integrally extending from the external surface of the hub.

A non-contact and optical measuring automation system, configured to electrically connect to a computer to measure the profile accuracy of a disk cam, includes a base, a rotating chuck, a moving stage module and a laser displacement meter. The rotating chuck is disposed for clamping the disk cam. The moving stage module includes a first linear motion stage movable relative to the base in a first direction and a second linear motion stage movable relative to the first linear motion stage in a second direction. The computer is able to control the rotation of the rotating chuck and the movement of the moving stage module, and is able to control a beam emitted from the laser displacement meter projecting onto a profile surface of the disk cam so as to obtain a profile deviation value of the disk cam by using the laser triangulation method.