CN105693194B - The compound 3D printing material of high strength carbon carbon - Google Patents

Abstract

A kind of compound 3D printing material of high strength carbon carbon, it is characterised in that the printed material is obtained by mixing by the raw material of following parts by weight：1 35 parts of graphene, 2 10 parts of nano-calcium carbonate powder, 28 parts of nano titanium oxide, 20 90 parts of ionic liquid, 1 100 parts of diluent.The present invention material energy rapid shaping, not only with conductive, light, high temperature resistant, high intensity the advantages of, it is easy to use also with environment-friendly, persistent, it is nontoxic to human body the advantages of.

Description

The compound 3D printing material of high strength carbon carbon

Technical field

The present invention relates to a kind of compound 3D printing material of high strength carbon carbon, belong to field of material technology.

Background technology

3D printing is also referred to as rapid prototyping ＆ manufacturing technology, its manufacturing process be by threedimensional model be layered discrete processes, By each layer of data transmission to 3D printer, using the modes such as laser, ultraviolet lighting, hot melt nozzle by metal, ceramic powders, The material such as plastics or cell tissue carries out successively accumulation and then molding bonded, finally produces whole material or device.3D Printing have manufacturing process is simple, product development cycle is short, easily fabricated complicated form part, multiple parts can be integrally melted into Type, part allowance is small, save material the features such as.

Printed material as the core component of 3D printing is constantly subjected to widely pay close attention in recent years.It progressively have developed pottery The different species such as porcelain, photosensitive resin, metal alloy, biological tissue, composite and plastics.According to printed material shape Difference, thread, powdered and liquid material can be divided into.It let us say that, the difference of the species of printed material, just determine The species and performance of 3D printer.Material is an important factor for restricting 3D printing.

Graphene is a kind of fully transparent carbon material, has good conductive characteristic.It is to be peeled off from graphite material Out, the two dimensional crystal for the only one layer of atomic thickness being made up of carbon atom.

Ionic liquid, it is exactly to be made up of completely zwitterion as its name suggests, the salt chemical combination being in a liquid state at room temperature Thing.It is different from traditional solid salt, there is designability, different zwitterion energy to melt molecules of salt existing for liquid condition Enough it is combined into miscellaneous ionic liquid.By selecting different zwitterions, or it is introduced directly into specific functional group and enters Row modification, is adjusted to the property of ionic liquid, such as fusing point, viscosity, hydrophobicity, to meet different needs.Ionic liquid Because the saturated vapor pressure substantially not measured, thus using ionic liquid than more conforming to environment using traditional chemical solvent Friendly Green Development theory.Ionic liquid has designability, by adjusting different zwitterions pair, can design kind Class is different, meets that the special ionic liquid of different needs comes.

The content of the invention

The invention discloses a kind of compound 3D printing material of high strength carbon carbon, the 3D printing material has rapid shaping, resistance to High temperature, high intensity, the characteristics of rub resistance；The material is after printing shaping, persistent, high temperature resistant, conduction and not perishable The characteristics of.Environment and user of service's nonhazardous are acted on.

The technical scheme that specifically uses of the present invention is：

A kind of compound 3D printing material of high strength carbon carbon, it is characterised in that the printed material by following parts by weight original Material is obtained by mixing：

Wherein, the ionic liquid chemical formula is：

In the present invention, graphene is main functional components, and it has specific strength high, and density is small, high temperature resistant, corrosion resistant Erosion and it is conductive the characteristics of, and ionic liquid has very wide electrochemical window and electrical conductivity (being more than 100S/m), can Further enhance the electric conductivity of graphene；The characteristics of we utilize ionic liquid designability simultaneously, draws in its cationic moiety Multigroup functional group is entered：Unsaturated double-bond and the functional group of the substitution containing fluorine atom, so we impart the novel ion liquid Body has the characteristics of heat endurance is good, high temperature resistant and rapid curing film forming.Simultaneously the present invention in nano-calcium carbonate and receive Rice titanium dioxide, play a part of rigid ion enhancing, toughness reinforcing, mechanism is similar to the sand and rubble in concrete.Different-grain diameter Nano-calcium carbonate and nano titanium oxide work in coordination, enhance the intensity of the new 3D printing material so that the present invention Described high intensity, corrosion-resistant, environment-friendly, conductive has feature to be carried out.

Preferably, the printed material is obtained by mixing by the raw material of following parts by weight：

Wherein, described graphene is the non-oxidized graphite alkene prepared using conventional vapor deposition method.

Wherein, the average grain diameter of described nano-calcium carbonate powder is 100-1000 nanometers, and using 200-500 nanometers as most It is good；

Wherein, described nano titanium oxide is rutile-type, average grain diameter 10-100 nanometers, and using 20-50 nanometers as It is good.

Wherein, described diluent is trifluoroethanol.

It is an advantage of the invention that：

1st, the material energy rapid shaping, there is the characteristics of conductive, light, high temperature resistant, high intensity.

2nd, the material environment is friendly, and any shadow will not be produced to the health of people during shaping and later stage use Ring.

Embodiment

The present invention is more comprehensively described with reference to specific implementation case：

Embodiment (unit：g)

	Embodiment 1	Embodiment 2	Embodiment 3	Embodiment 4	Embodiment 5
						Trifluoroethanol	1	20	2	85	100
Graphene	1	10	5	25	35
						Calcium carbonate powder	2	5	5	2	10
Titanium dioxide	2	5	2	5	8
						Ionic liquid	20	30	25	85	90

Embodiment 2 (optimum embodiment)

Wherein titanium dioxide is rutile-type powder, and graphene is that individual layer prepared by conventional vapor deposition method (CVD) is non-oxygen Any mixture of graphite alkene and multilayer non-oxidized graphite alkene

By the raw material of embodiment 2, sequentially add in 2000ml four-hole boiling flasks, stir at room temperature, it is stand-by, it is this hair The bright 3D printing material.3D printer printing shaping is heated by laser.The composite materials property performance test uses National standard GB/T 1447 is tested, and electric conductivity is tested using GB/T 15662-1995, and the heat resistance of material is using heat Weight instrument (TG) is tested.

Test result is as shown in the table：

Claims (4)

1. A kind of 1. compound 3D printing material of high strength carbon carbon, it is characterised in that the printed material by following parts by weight raw material It is obtained by mixing：

   Wherein, the ionic liquid chemical formula is：

   The average grain diameter of described nano-calcium carbonate powder is 100-1000 nanometers；Described nano titanium oxide is rutile Type, average grain diameter 10-100 nanometers.
2. 2. the compound 3D printing material of high strength carbon carbon according to claim 1, it is characterised in that the printed material is by such as The raw material of lower parts by weight is obtained by mixing：
3. 3. the compound 3D printing material of high strength carbon carbon according to claim 1, it is characterised in that described graphene is to adopt The non-oxidized graphite alkene prepared with conventional vapor deposition method.
4. 4. the compound 3D printing material of high strength carbon carbon according to claim 1, it is characterised in that described diluent is three Fluoroethanol.