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Normal temperature π-electron high conductor in zero magnetic vector field and preparation method thereof

A technology of π electrons and vector fields, applied in the field of conductor preparation, can solve problems such as narrowing the scope of applicable places, increasing costs, and high requirements for the use environment, and achieves the effects of easy implementation, simple process, and broad market prospects

Active Publication Date: 2022-07-08
澳门听澜康诚新能源技术有限公司 +1
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

[0005] Therefore, if you want to reduce the resistivity of metal conductors, you must lower the operating temperature at the expense of reducing the operating environment of the equipment, which will not only increase the cost, but also greatly reduce the scope of applicable places.

Method used

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  • Normal temperature π-electron high conductor in zero magnetic vector field and preparation method thereof
  • Normal temperature π-electron high conductor in zero magnetic vector field and preparation method thereof
  • Normal temperature π-electron high conductor in zero magnetic vector field and preparation method thereof

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Embodiment 1

[0038] Example 1 A high conductor of π electrons at room temperature in a zero magnetic vector field

[0039] This embodiment includes two flat-shaped normal-temperature π-electron high-conductivity elements 26 that are stacked and arranged with the same structure.

[0040] like figure 1 As shown, the flat-shaped normal-temperature π-electron high-conductivity element 26 is composed of a flat-shaped conductive excitation body 11 and a π-electron plane excitation grid 12 stacked together. In this embodiment, the two flat normal-temperature π-electron high-conductivity elements 26 are bonded by an adhesive on the side where the π-electron planar excitation mesh 12 is arranged. The adhesive is insulating resin glue.

[0041] Among them, the flat conductive exciter 11 is a flat conductive body. In actual use, according to the needs, the flat conductor can be selected from aluminum, iron, copper, nickel with similar electronegativity, or an alloy of at least two materials of alu...

Embodiment 2

[0046] Embodiment 2 A preparation method of normal temperature π-electron high conductor in a magnetic vector field

[0047] The production equipment adopted in this embodiment is as follows figure 2 As shown, it includes an insulating resin glue spraying mechanism 29, an environmental protection oven 30, a winding device, and two symmetrically arranged high-conductivity element production mechanisms. The high-conductivity element production mechanism includes a flat conductive excitation body. Electronic resin sizing tank 23 , π electron plane excitation anilox roller 24 , π electron approximate order conductive excitation roller 25 , first to third insulating and wear-resistant guide rollers 271 to 273 , wear-resistant insulating composite roller 28 . The winding device includes a normal temperature π-electron high-conductor winding mechanism 22 in a zero magnetic vector field and a fourth insulating and wear-resistant guide roller 274 .

[0048] Among them, the surface of...

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Abstract

The invention discloses a normal-temperature π-electron high-conductor in a zero magnetic vector field, which comprises two flat-shaped normal-temperature π-electron high-conductivity elements with identical structures stacked and arranged; Electron planar excitation nets are stacked; the flat conductive excitation body is made of flat conductors; the π-electron planar excitation net is made of insulating resin glue as the continuous phase, and the material with π-electron elements as the dispersed phase, and the π-electrons are in its standard field. A network structure formed by orderly arrangement and solidification on a flat conductive exciter under the constraints of Lorentz force and Coulomb force. The invention also discloses a preparation method of the normal temperature π-electron high conductor in the above zero magnetic vector field. The high-conductor provided by the invention has high conductivity at room temperature, can be used to prepare energizing bars, motor windings, and transformer windings for low-voltage power distribution below 35000V, can save copper by replacing copper with aluminum, realize cost reduction and increase efficiency, and has a broad market prospect. Great economic value.

Description

technical field [0001] The invention belongs to the technical field of conductor preparation, and relates to a high conductor, in particular to a normal temperature π-electron high conductor in a zero magnetic vector field and a preparation method thereof. Background technique [0002] A conductor is a substance that has a small resistivity and conducts electricity easily. The large number of freely moving charged particles present in a conductor are called charge carriers. Under the action of the external electric field, the carriers move in a directional motion, forming an obvious current. [0003] Metals are the most common type of conductor. In today's production and life, the commonly used metal conductors are iron, copper, aluminum and so on. Scientists have been working on reducing the resistivity of conductors for a long time. [0004] In general, the resistivity of metallic conductors increases with increasing temperature. [0005] Therefore, in order to reduce...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): H01B5/00H01B5/02H01B13/00
CPCH01B5/00H01B5/02H01B13/00
Inventor 王卫润东
Owner 澳门听澜康诚新能源技术有限公司
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