▎ 摘　　要

NOVELTY - Process of constructing a structure having a superconducting electromagnetic material as the structural core, comprises: forming a flexible carbon nanotube/graphene or a hybrid carbon fiber/graphite composite laminar material (A); making the material (A) as a controllable superconducting electromagnet and or a superconducting magnet along its plane or through its cross section; spraying a face of the carbon nanotube/graphene or a hybrid carbon fiber/graphite composite laminar material with a coating to provide treated material; and having the treated carbon nanotube/graphene or a hybrid carbon fiber/graphite composite laminar material act as a linear synchronous motor and forming into a structure, where the structure may be rigidified by electrifying the carbon nanotube/graphene or hybrid carbon fiber/graphite composite laminar material and automating the construction process with the use of electricity including exterior fac cedillaade finishes of a building and or structure. USE - The process is used for constructing a structure having a superconducting electromagnetic material as the structural core, and used for preparing a building carbon nanotube/graphene or hybrid carbon fiber/graphite composite laminar core body (claimed). The method is used for automating the construction of buildings, structures and their respective finishes using lightweight superconducting electromagnetic hybrid composite materials, and used in the construction of structures such as buildings for human occupation. The method is used for applying in the construction of other structures, such as land and air vehicles, infrastructure and civil construction, such as roads, sewers, high tension towers and bridges, and consumer items. The method is used in the construction of consumer device, land or air vehicles and components, infrastructure and civil construction such as roads, railroads, aqueducts, tunnels, sewers, high tension towers, and bridges, robotics, artificial limb and prosthetics. ADVANTAGE - The method may streamline and simplify the construction of structures. The method reduces the materials used, the number of connection points between materials, and the number of necessary on-site personnel or workers. The method reduces the risk associated with human error during construction and associated with building component system failures in conventional construction. The method allows the construction of structures employing electricity and electromagnetism to create electrified and dynamic interactive structures. The method utilizes carbon nanotube/graphene or hybrid (carbon fiber/graphite) composite material which permits the material to be prepared mainly off-site in a controlled environment at a manufacturing capacity. The method further utilizes materials which reduce on-site human errors and delays inherent with all current construction practices, may simplify construction practices and methods with the use of one material as the main building component along with electricity, may reduce the need for on-site contractors such electrical, mechanical, sprinkler, drywall, roofing, formwork, concrete, iron worker, caulking, fireproofing, concrete finisher, security contractor, and may also reduce the need for exterior cladding and curtain wall contractors. DETAILED DESCRIPTION - An INDEPENDENT CLAIM is included for a building carbon nanotube/graphene or hybrid carbon fiber/graphite composite laminar core body prepared by the above process.