A system and method for forming at least one of graphene and graphene oxide on a substrate and an opposed wear member. The system includes graphene and graphene oxide formed by an exfoliation process or solution processing method to dispose graphene and/or graphene oxide onto a substrate. The system further includes an opposing wear member disposed on another substrate and a gas atmosphere of an inert gas like N.sub.2, ambient, a humid atmosphere and a water solution.

The present invention provides a lubricant composition comprising: (i) a base oil (ii) an organophilic clay-based thickener; and (iii) a solid lubricant, wherein said solid lubricant does not comprise any heavy metals. The present invention also provides the use of a lubricant composition comprising: a base oil; an organophilic clay-based thickener; and a solid lubricant, wherein said solid lubricant does not comprise any heavy metals, as a pipe dope.

The present invention provides a lubricant composition comprising: (i) a base oil (ii) an organophilic clay-based thickener; and (iii) a solid lubricant, wherein said solid lubricant does not comprise any heavy metals. The present invention also provides the use of a lubricant composition comprising: a base oil; an organophilic clay-based thickener; and a solid lubricant, wherein said solid lubricant does not comprise any heavy metals, as a pipe dope.

The present invention provides a paper ball-like graphene microsphere, a composite material thereof, and a preparation method therefor. Such paper ball-like graphene microspheres are obtained by chemically reducing graphene oxide microspheres to slowly remove oxygen-containing functional groups on the surface of the graphene oxide to avoid the volume expansion caused by rapid removal of the groups, thereby maintaining a tight bond between graphene sheets without separation; and removing the remaining small number of oxygen-containing functional groups and repairing defect structures in the graphene oxide sheets by means of high temperature treatment, such that the graphene structure becomes perfect at an ultrahigh temperature (2500 to 3000° C.), thereby further improving the bonding ability between the graphene sheets in the microspheres and achieving a dense structure.

The present invention provides a paper ball-like graphene microsphere, a composite material thereof, and a preparation method therefor. Such paper ball-like graphene microspheres are obtained by chemically reducing graphene oxide microspheres to slowly remove oxygen-containing functional groups on the surface of the graphene oxide to avoid the volume expansion caused by rapid removal of the groups, thereby maintaining a tight bond between graphene sheets without separation; and removing the remaining small number of oxygen-containing functional groups and repairing defect structures in the graphene oxide sheets by means of high temperature treatment, such that the graphene structure becomes perfect at an ultrahigh temperature (2500 to 3000° C.), thereby further improving the bonding ability between the graphene sheets in the microspheres and achieving a dense structure.

A gas compressor compressing gas includes a cylinder liner, a piston member, and a first sliding member. The piston member includes a piston reciprocating in an inner space of the cylinder liner, and a piston rod connected to the piston. The first sliding member is made of a resin, has a ring shape, and is provided on one of the piston member and the cylinder liner. The first sliding member slides relatively against a reception member while another of the piston member and the cylinder liner serves as the reception member that receives sliding. An amorphous carbon film is formed on a sliding surface of each of the first sliding member and the reception member. A carbon content in the amorphous carbon film formed on each of the sliding surfaces is larger in its surface part than in its inner part on an inner side of the surface part.

A gas compressor compressing gas includes a cylinder liner, a piston member, and a first sliding member. The piston member includes a piston reciprocating in an inner space of the cylinder liner, and a piston rod connected to the piston. The first sliding member is made of a resin, has a ring shape, and is provided on one of the piston member and the cylinder liner. The first sliding member slides relatively against a reception member while another of the piston member and the cylinder liner serves as the reception member that receives sliding. An amorphous carbon film is formed on a sliding surface of each of the first sliding member and the reception member. A carbon content in the amorphous carbon film formed on each of the sliding surfaces is larger in its surface part than in its inner part on an inner side of the surface part.

A lubricant material for assisting machining process comprising fullerene.

A lubricant material for assisting machining process comprising fullerene.

A non-volatile memory circuit in embodiments of the present invention may have one or more of the following features: (a) a logic source, and (b) a semi-conductive device being electrically coupled to the logic source, having a first terminal, a second terminal and a nano-grease with significantly reduced amount of carbon nanotube loading located between the first and second terminal, wherein the nano-grease exhibits non-volatile memory characteristics.