A busbar applied in electrical cabinet disclosing an electrical cabinet set containing main busbars and secondary busbars built in a closed tubular shape, assembled in the referred electrical cabinet, which also presents insulators and secondary insulators, protection system in the main busbar systems, extension set and finally derivation connectors.

A busbar applied in electrical cabinet disclosing an electrical cabinet set containing main busbars and secondary busbars built in a closed tubular shape, assembled in the referred electrical cabinet, which also presents insulators and secondary insulators, protection system in the main busbar systems, extension set and finally derivation connectors.

Embossing of metallic glass supercooled liquids into templates is emerging as a precision net-shaping and surface patterning technique for metals. Here, the effect of thickness of metallic glass on template-based embossing is disclosed. The results show that the existing embossing theory developed for thick samples fails to describe the process when the thickness of metallic glass becomes comparable to the template cavity diameter. Increased flow resistance at the cavity entrance results in viscous buckling of supercooled liquid instead of filling. A new phenomenological equation is proposed to describe the thickness dependent filling of template cavities. The buckling phenomenon is analyzed based on the folding model of multilayer viscous media. Controlled buckling can be harnessed in fabrication of metal microtubes, which are desirable for many emerging applications.

A bus bar including a main tubular body extending along a longitudinal axis between a first end and a second end, the main tubular body being made of a first electrically conducting material for carrying an electrical current therealong, and the bus bar further including a hollow connection body longitudinally projecting from the first end of the main tubular body and provided with a mounting surface for receiving an electrical connector thereto, the hollow connection body being made a second electrically conducting material for carrying the electrical current between the electrical connector and the main tubular body.

A bus bar including a main tubular body extending along a longitudinal axis between a first end and a second end, the main tubular body being made of a first electrically conducting material for carrying an electrical current therealong, and the bus bar further including a hollow connection body longitudinally projecting from the first end of the main tubular body and provided with a mounting surface for receiving an electrical connector thereto, the hollow connection body being made a second electrically conducting material for carrying the electrical current between the electrical connector and the main tubular body.

A busbar and constructive variations thereof, which has a closed tubular format, based on single, double and triple walls, and said busbar can be manufactured by extrusion, profiling or bending process.

A busbar and constructive variations thereof, which has a closed tubular format, based on single, double and triple walls, and said busbar can be manufactured by extrusion, profiling or bending process.

A method of forming a metallic wire comprises obtaining a core conductor and wrapping the core conductor with a cladding material forming a cladded wire.

A method of forming a metallic wire comprises obtaining a core conductor and wrapping the core conductor with a cladding material forming a cladded wire.

A pipe conductor is formed by a conductive tubular body. The pipe conductor includes a connection for connecting with another conductor. The connection is formed by crushing an end of the conductive tubular body in an axial direction. A flat surface is formed on a first surface of the connection, and a surface having a groove is formed on a second surface of the connection. The groove reaches a tip end of the connection, and an end of the another conductor is in contact with only the flat surface.