CN106082174B - A kind of carbon nanotube dispersal device - Google Patents

Abstract

The present invention discloses a kind of carbon nanotube dispersal device, the technical solution adopted by the present invention is that: pressurizing piston is located in carbon nanotube mixture shaping channel, loading hopper is located on the upside of carbon nanotube mixture shaping channel and is located in pressurizing piston stroke, discharge port electrode is located at carbon nanotube mixture shaping channel outlet end and is connected with electronic-boosting device, and contact electrode is connected with electronic-boosting device and is located at same level without contacting with each other with contact electrode.

Description

A kind of carbon nanotube dispersal device

Technical field

The invention belongs to field of new materials, are related to a kind of dispersal device of carbon nanotube.

Background technique

Carbon nanotube is a kind of graphite flake according to novel nano-material made of the curling of certain helical angle.It has very big Draw ratio, heat exchange performance alongst is preferable, and the heat exchange performance of its vertical direction is lower, using it respectively to different Property by being suitably orientated, the composite material with superior heating conduction can be obtained.But it is relatively strong due to having between carbon nanotube Van der Waals force, add its very big draw ratio, it caused easily to occur to reunite to reducing during production and application Its performance.And when in use, often it can be only achieved ideal using effect for the aggregate of carbon nanotube is fully dispersed.

Currently, the main dispersion means of carbon nanotube research field include grinding, ultrasonic wave dispersion, strong acid alkali process, but It is that these methods are only limitted to the laboratory research stage, produces scattered carbon nanotube solution also not yet in effect so far on a large scale Certainly.The states such as America and Europe are to the research main points of carbon nanotube prior to us, but they obtain us can not the block of technology The device effectively dispersed, a kind of dispersal device for carbon nanotube that the application is proposed seek to one kind and can be mass-produced point The device for dissipating carbon nanotube breaks developed country for the barrier of dispersing Nano carbon tubes method, is the research of China's carbon nanotube It gives a favor, carbon nanotube is enable to be widely applied in fields such as military project, space flight.

Summary of the invention

It is more thorough the present invention provides a kind of dispersion and fast and can realize for the deficiency of above-mentioned existing dispersion technology The carbon nanotube dispersal device of industrialization, the device is by electronic-boosting device, discharge port electrode, contact electrode, loading hopper, pressurization The composition such as piston, carbon nanotube mixture shaping channel.

The technical solution adopted by the present invention is that: pressurizing piston is located in carbon nanotube mixture shaping channel, loading hopper position On the upside of carbon nanotube mixture shaping channel and it is located in pressurizing piston stroke, discharge port electrode is located at carbon nanotube mixing Object shaping channel outlet end is connected with electronic-boosting device, contact electrode be connected with electronic-boosting device and with contact electrode Positioned at same level without contacting with each other.

The invention has the advantages that it is obvious and can realize scale and serialization preparation to provide a kind of dispersion effect Carbon nanotube dispersal device.

Detailed description of the invention

Fig. 1 is a kind of schematic diagram of carbon nanotube dispersal device of the present invention.

Fig. 1: 1. electronic-boosting devices, 2. contact electrodes, 3. discharge port electrodes, 4. loading hoppers, 5. carbon nanotube mixtures Shaping channel, 6. pressurizing pistons

Specific embodiment

Specific implementation steps that the following further describes the present invention with reference to the drawings:

As shown in Figure 1, carbon nanotube dispersal device is mainly by (1) electronic-boosting device, (2) contact electrode, (3) discharge port Electrode, (4) loading hopper, (5) carbon nanotube mixture shaping channel, the composition such as (6) pressurizing piston.(6) pressurizing piston is located at (5) In carbon nanotube mixture shaping channel, (4) loading hopper is located on the upside of (5) carbon nanotube mixture shaping channel and is located at (6) in pressurizing piston stroke, (3) discharge port electrode is located at (5) carbon nanotube mixture shaping channel outlet end and (1) electronics liter Pressure device is connected, and (2) contact electrode is connected with (1) electronic-boosting device and is located at same level with (2) contact electrode Without contacting with each other.

In use, carbon nanotube mixture is added in (5) carbon nanotube mixture shaping channel by (4) loading hopper, benefit Subsequent renew of carbon nanotube mixture molding is fed forward and (3) discharging with the pressure of (6) pressurizing piston with (6) pressurizing piston It contacts to form short-circuit condition with (2) contact electrode again after mouth electrode contact, generates foot between two electrode of (1) electronic-boosting device later The electric current of enough intensity, keeps the operation material in carbon nanotube mixture fast using the fuel factor for flowing through carbon nanotube mixture electric current Speed vaporization generates peptizaiton to carbon nanotube.

Claims (1)

1. a kind of carbon nanotube dispersal device contacts battery plate (2) mainly by electronic-boosting device (1), discharge port electrode (3) adds Hopper (4), carbon nanotube mixture shaping channel (5), pressurizing piston (6) composition, it is characterised in that: pressurizing piston (6) is located at In carbon nanotube mixture shaping channel (5), loading hopper (4) is located on the upside of carbon nanotube mixture shaping channel (5) and position In in pressurizing piston (6) stroke, discharge port electrode (3) is located at carbon nanotube mixture shaping channel (5) outlet end and electronics liter Pressure device (1) is connected, and contact electrode (2) is connected with electronic-boosting device (1) and is located at same water with discharge port electrode (3) Plane is without contacting with each other.