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Process and device for preparing graphene tire by coproduction

A graphene and tire technology, which is applied in the field of co-production of graphene tire production technology and its device field, can solve the problems of easy puncture, poor tire quality, easy puncture, easy to be punctured, etc. Extend life and increase anti-puncture effect

Active Publication Date: 2016-06-15
程礼华
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

And cause one of important reasons of traffic accidents, be that the tire quality of prior art is relatively poor, as easily blown out and easily punctured
[0005] The use of graphene in the preparation of tires can effectively solve the problems of poor quality and puncture of existing tires, but the expensive production cost of graphene is not conducive to its popularization and application and industrial production. How to reduce the production cost and promote industrialization Application is one of the hard problems to solve

Method used

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  • Process and device for preparing graphene tire by coproduction
  • Process and device for preparing graphene tire by coproduction
  • Process and device for preparing graphene tire by coproduction

Examples

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Effect test

Embodiment 1

[0026] Embodiment 1: as figure 1 As shown, a device for producing graphene tires through joint production, including: coal-based islands, silicon-aluminum-titanium carbon black islands, graphene islands, graphene tire islands, IGCC carbon-oxygen cycle power generation islands, and aluminum alloys made of fly ash Ferrosilicon island, carbon dioxide capture island, tail gas waste heat steam island, tail gas hydrogen production island, air separation island, carbon dioxide oil production island, remote explosion-proof monitoring island; the coal-based island and silicon aluminum titanium carbon black island, graphene island, IGCC carbon-oxygen cycle power generation island connection, silicon aluminum titanium carbon black island, graphene island and graphene tire island connection, IGCC carbon-oxygen cycle power generation island and fly ash aluminum alloy silicon iron island, carbon dioxide capture island, exhaust waste heat steam The island is connected, the silicon aluminum t...

Embodiment 2

[0067] Embodiment 2: as Image 6 As shown, the difference between this embodiment and Embodiment 1 is that it also includes a graphene new energy vehicle island, a graphene lithium titanium rare earth battery island, a graphene bulletproof and anti-sticking film island, a graphene air purification filter membrane island, and a graphene brake island. Chip island, graphene flame-retardant fiber material island, graphene engine island, graphene intelligent control electronic component island. The coal-based island sends the coal base to the graphitization island to remove volatile matter and then sends it to the graphene island and the silicon-aluminum-titanium carbon black island to prepare graphene and silicon-aluminum-titanium carbon black respectively, and graphene and silicon-aluminum-titanium carbon black to send graphene Tire island produces graphene tires, graphene is sent to graphene brake pad island to produce graphene brake pads, graphene lithium titanium rare earth ba...

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Abstract

The invention relates to the field of tires and particularly relates to a process and device for preparing a graphene tire by coproduction. By coproducing electric oil aluminum alloy ferrosilicon by a coal-based graphene tire, graphene tire production and tail gas pollution emission management, IGCC power generation and oil production are integrated together to realize industrialized application. The process and the device, provided by the invention, have the beneficial effects that firstly, graphene automobile tires, motorcycle tires, tractor tires, bicycle tires, industrial tires and airplane safety tires can be produced at a low cost;; particularly, the anti-puncturing and anti-explosion properties of the tires can be improved, the resistance is increased and the service life is prolonged; secondly, an aluminum alloy can be prepared by using produced carbon black and coal ash and hydrogen is prepared from tail gas produced by the ferrosilicon at a low cost; carbon dioxide collected from the IGCC power generation is used for preparing oil at a low cost; and thirdly, the problems of coal power carbon dioxide emission and fly ash environment pollution are controlled from the source, and the carbon dioxide and the fly ash are 100% utilized.

Description

technical field [0001] The invention relates to the field of tires, in particular to a process for preparing graphene tires through joint production and a device thereof. Background technique [0002] Graphene is a two-dimensional crystal composed of closely packed carbon atoms. It is a perfect material with strong transparency, toughness, extremely hard, waterproof and heat-proof, low resistivity, and rich resources among known substances. The focus of international competition in various industries. [0003] Graphene is a new type of two-dimensional carbon nanomaterial. Due to its ultra-thin, super-strength, and high electrical conductivity, it has broad application prospects in batteries, sensors, coatings, and supercapacitors. [0004] Carbon black is an amorphous carbon. Light, loose and very fine black powder with a very large surface area ranging from 10 to 3000m2 / g. It can be used as a black dye, mainly used in the manufacture of ink and rubber tires. The raw mate...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): B29D30/08B09B3/00B09B5/00C01B31/04C01B3/12C01B31/20C01B31/18C08K3/04C08L7/00C01B32/40C01B32/50
CPCB09B3/00B09B5/00B29D30/005B29D30/08C01B3/12C08L7/00C08L21/00C08K3/04Y02A50/20Y02P20/129Y02P30/00Y02P70/10Y02W30/20
Inventor 程礼华程皓徐渭渭
Owner 程礼华
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