CN106221182A - A kind of antibacterial except the 3D printing compound polyurethane material of aldehyde - Google Patents

Abstract

The invention discloses a kind of antibacterial except the 3D printing compound polyurethane material of aldehyde, it is made up of the raw material of following weight portion meter: polyurethane 90 ~ 100 parts, compounded mix 5 ~ 10 parts, functional material 1 ~ 5 part, Graphene 0 ~ 5 part, light stabilizer 0.1 ~ 1 part, coupling agent 5 ~ 10 parts, levelling agent 0.1 ~ 2 part, dispersed lubricant 1 ~ 6 part and 0.1 ~ 1 part of antioxidant；Wherein, described functional material includes nanometer silver/TiO₂Anti-biotic material and multi-walled carbon nano-tubes/nano-ZnO are except aldehyde material.The present invention utilizes diatomaceous absorption and slow-release function, capsule slow release method, by antibacterial and except aldehyde material is stored in kieselguhr and discharges slowly, farthest increases the antibacterial of product and except aldehyde effect；And the described Thermoplastic polyurethane composite material prepared also has good pliability and excellent mechanical property, has widened the range of application that 3D prints further.

Description

A kind of antibacterial except the 3D printing compound polyurethane material of aldehyde

Technical field

The present invention relates to field of compound material, a kind of antibacterial except the 3D printing compound polyurethane material of aldehyde.

Background technology

3D printing technique is also known as a kind of emerging technology of increasing material manufacturing technology, actually rapid shaping field, and it is one Kind based on mathematical model file, use powdery metal or plastics etc. can jointing material, come by the way of successively printing The technology of constructed object.Ultimate principle is layered manufacturing, successively increases material and generates the technology of 3D solid.At present, 3D beats Print technology is applied primarily to product prototype, Making mold and the field such as artistic creation, jewelry-making, substitutes these tradition and depends on The retrofit technique relied.It addition, 3D printing technique is gradually applied to the necks such as medical science, biological engineering, building, clothing, aviation Territory, has opened up wide space for innovation.But, the product that 3D printing technique prints is storing, and transports and used Cheng Zhong, due to humidity in surrounding and air, the impact of deleterious particle and gas etc., easily grows carefully at its surface Bacterium, enrichment polluter etc., health can be adversely affected.At present, the most popular 3D printed product and former The antibacterial antifouling self-cleaning function of material is not highly desirable, need to improve.

Summary of the invention

In order to solve above-mentioned the deficiencies in the prior art, the invention provides a kind of antibacterial 3D printing polyurethane except aldehyde multiple Condensation material, it also has good pliability and excellent mechanical property, has widened the range of application that 3D prints further.

The technical problem to be solved is achieved by the following technical programs:

A kind of antibacterial except the 3D printing compound polyurethane material of aldehyde, it is made up of the raw material of following weight portion meter: polyurethane 90 ~ 100 parts, compounded mix 5 ~ 10 parts, functional material 1 ~ 5 part, Graphene 0 ~ 5 part, light stabilizer 0.1 ~ 1 part, coupling agent 5 ~ 10 parts, Levelling agent 0.1 ~ 2 part, dispersed lubricant 1 ~ 6 part and 0.1 ~ 1 part of antioxidant；Wherein, described functional material includes nanometer silver/TiO₂ Anti-biotic material and multi-walled carbon nano-tubes/nano-ZnO are except aldehyde material；Described compounded mix 3:2 by weight is by Graphene/SiO₂ Compounded mix forms with graphene/carbon acid calcium compounded mix；

The preparation method of this compound polyurethane material, comprises the following steps:

(1) pretreatment urethane raw: urethane raw is ground into 300 mesh powder, is scattered in pure water, ultrasonic (power 200 ~ 300W) after 1 hour, ultrasonic limit, limit microwave exposure (2500 ~ 3000MHz, temperature controls at 80 ~ 90 DEG C) 1 hour；Stop ultrasonic And microwave exposure, washing, discharging, it is dried, obtains pretreatment polyurethane；

(2) a PU master batch is prepared: by Graphene/SiO₂Compounded mix ultrasonic agitation (300 ~ 500KW ultrasonic vibration and 1000 ~ 1400r/min centrifugal speed stirs) it is scattered in pure water, obtain the first dispersion liquid, standby；By graphene/carbon acid calcium compounded mix Ultrasonic agitation (300 ~ 500KW ultrasonic vibration and the stirring of 1000 ~ 1400r/min centrifugal speed) is scattered in pure water, obtains second point Dissipate liquid, standby；Under heating-up temperature (50 ~ 60 DEG C), the pretreatment polyurethane of 3/5ths is dissolved in organic solvent, obtains Polyurethane solutions, one dividing into three obtains first part, second part, the 3rd part of polyurethane solutions, standby；Under temperature constant state (50 ~ 60 DEG C), Limit high-speed stirred (1000 ~ 1400r/min) limit ultrasonic (power 300 ~ 500KW) first part of polyurethane solutions, dropping the first dispersion Liquid, ultrasonic agitation 30 ~ 60min；Continue second part of polyurethane solutions of dropping, ultrasonic agitation 30 ~ 60min；Continue dropping second point Dissipate liquid, ultrasonic agitation 30 ~ 60min；Continue the 3rd part of polyurethane solutions of dropping, ultrasonic agitation 30 ~ 60min, obtain polyurethane and mix Close liquid；What polyurethane mixed liquor was passed through spray dryer stocks in groove, is mixed by polyurethane with the speed of 200～300ml/min Close liquid to be ejected in spray dryer, be dried to obtain a PU master batch；The nozzle diameter of described spray dryer is 0.5～0.7mm, Dry air flow rates is 30～35m³/ h, temperature 120～160 DEG C；

(3) prepare the 2nd PU master batch: by functional material ultrasonic agitation (300 ~ 500KW ultrasonic vibration and 1000 ~ 1400r/min from Heart speed stirs) it is scattered in pure water, obtain functional material dispersion liquid, standby；Under heating-up temperature (50 ~ 60 DEG C), by five/ The pretreatment polyurethane of one is dissolved in organic solvent, obtains polyurethane solutions；Under temperature constant state (50 ~ 60 DEG C), limit high-speed stirring Mix (1000 ~ 1400r/min) limit ultrasonic (power 300 ~ 500KW) polyurethane solutions, drip functional material dispersion liquid, ultrasonic agitation 30 ~ 60min, obtains polyurethane mixed liquor；What polyurethane mixed liquor was passed through spray dryer stocks in groove, with 200 ~ 300ml/ Polyurethane mixed liquor is ejected in spray dryer by the speed of min, is dried to obtain the 2nd PU master batch；

(4) pretreatment polyurethane will be remained, a PU master batch, the 2nd PU master batch, light stabilizer, coupling agent, levelling agent, dispersion profit Joining after lubrication prescription and antioxidant melting mixing in mechanical lapping pulverizer, obtaining mean diameter after pulverizing is the poly-of 30 ~ 40 μm Urethane composite powder, is placed at 95 DEG C and is dried 2h；Dried powder is added double screw extruder, then cools down molding Obtain shape wire, rolling, obtain the Thermoplastic polyurethane composite material of 3D printer.

In the present invention, described functional material preparation method is as follows: by nanometer silver/TiO in vacuum mixing machine₂Antibacterial material Material and multi-walled carbon nano-tubes/nano-ZnO remove in the diatom Rhizoma Panacis Japonici soil that aldehyde material joins 40 parts by weight 3:5, at vacuum bar Part, 120r/min speed under stir 30 minutes, allow each component adsorb in kieselguhr；20 parts are added in the kieselguhr obtained Polyacrylate dispersion, vacuum mixing machine stirs 20 minutes under the speed of 300r/min, makes polyacrylate dispersion by silicon Diatomaceous earth cladding is got up, and is formed with kieselguhr as core, and polyacrylate is the capsule of shell, makes a diameter of 1mm's in pellet processing machine Granule, then by prepared granule natural drying 12 hours.

In the present invention, antibacterial it is made up of the raw material of following weight portion meter except the 3D printing compound polyurethane material of aldehyde: Polyurethane 100 parts, compounded mix 8 parts, functional material 2 parts, light stabilizer 0.2 part, coupling agent 5 parts, levelling agent 0.1 part, dispersion Lubricant 3 parts and 0.5 part of antioxidant.

There is advantages that

The present invention utilizes diatomaceous absorption and slow-release function, capsule slow release method, by antibacterial and except aldehyde material is stored in diatom In soil and discharge slowly, farthest increase the antibacterial of product and except aldehyde effect；And the described thermoplasticity prepared Compound polyurethane material also has good pliability and excellent mechanical property, has widened the application model that 3D prints further Enclose.

Detailed description of the invention

In the present invention,

(1) Graphene is prepared by following methods: taking a certain amount of acid flat band ink, 1000 DEG C process 2 hours, then 8% in atmosphere H₂Nitrogen and hydrogen mixture in 1100 DEG C of in-situ reducing process 1.0 hours, add macrogol ester and the mass ratio of mass ratio 3% Tetracarboxylic dianhydride's dinaphthyl of 5.0%, is made into, with water, the slurry that concentration is 82.0%, first enters under the ultrasonic assistant that power is 700W Row 4000 turns/min ball milling 10 hours, then adjust and to 300W ultrasound wave, carry out 2000 turns/min ball milling 5 hours, through height after ball milling Speed 10000 turns/min of centrifuge separates, lyophilization, it is thus achieved that Graphene solid.

(2) quantum dot calcium carbonate, its preparation method refers to a kind of microemulsion disclosed in Chinese patent CN103570051B System prepares the method for nano calcium carbonate quantum dot, the most first prepares the nano-calcium carbonate microemulsion of 1 ~ 3nm, more rotated Evaporate and be dried and prepare quantum dot calcium carbonate powder.

(3) Graphene/SiO₂Compounded mix preparation method is as follows: by Graphene ultrasonic agitation (700KW ultrasonic vibration and 1300r/min centrifugal speed stirs) it is scattered in ethanol；Add a certain proportion of (1:4) water and ammonia afterwards, after stirring The mass ratio adding tetraethyl orthosilicate and Graphene is 1.6:1, and regulation pH value is 9, and reaction temperature is 25 DEG C, and reaction 4.2 is little Time, it is centrifuged and cleans 3 times with acetone and deionized water, deionized water successively obtaining precipitation；This is deposited in 90^oDo under C Dry 2h, to obtain being coated with SiO₂Graphene compounded mix.

(4) preparation method of graphene/carbon acid calcium compounded mix is as follows: 1 part of Graphene is added 100ml deionized water In, prepare graphene dispersing solution after disperseing 200min under 800kW ultrasonic vibration and 1300r/min centrifugal speed stir；By 73 Part quantum dot calcium carbonate adds in 500ml deionized water, divides under 1300kW ultrasonic vibration and 1500r/min centrifugal speed stir Calcium carbonate dispersion liquid is prepared after dissipating 300min；Lower in graphene dispersing solution, it is slowly added dropwise calcium carbonate dispersion liquid 100kW is ultrasonic, Ultrasonic 60min, then sucking filtration, drying, prepare graphene/carbon acid calcium compounded mix.

(5) described nanometer silver/TiO₂Anti-biotic material preparation method is as follows: to the 0.01mol L of 200ml^-1HNO₃Solution Middle interpolation 0.79g AgNO respectively₃, 5g TiO₂Nanotube, 0.5g dispersant sodium cetanesulfonate, after ultrasonic disperse 60min, Magnetic agitation 24h in camera bellows again.After having stirred, by 0.3mol L^-1NaOH solution be added dropwise to this suspension, adjust Save its pH to 12.Filtering, gained powder sample, with after distilled water cyclic washing 3 times, is dispersed in 500ml distilled water, Add 1.0ml hole remover propylene glycol, be placed under ultra-violet lamp (125W, λ max=365nm), irradiate 6 hours. Gained sample filtering separates, and with distilled water wash 4 times.Sample after washing is put in drying baker, is dried 10 at 80 DEG C little Time, grind, obtain nanometer silver/TiO₂Anti-biotic material.

(6) described multi-walled carbon nano-tubes/nano-ZnO except aldehyde material preparation method as follows: by multi-walled carbon nano-tubes add In 100ml deionized water, prepare carbon after disperseing 200min under 800kW ultrasonic vibration and 1300r/min centrifugal speed stir and receive Mitron dispersion liquid；Nanometer ZnO powder is added in 100ml ethanol, stir at 1300kW ultrasonic vibration and 1500r/min centrifugal speed Nano-ZnO dispersion solution is prepared after mixing lower dispersion 100min；Ultrasonic lower toward addition nano-ZnO in carbon nano tube dispersion liquid at 300kW Dispersion liquid, ultrasonic 90min, then sucking filtration, drying, prepare multi-walled carbon nano-tubes/nano-ZnO except aldehyde material, wherein, described many walls CNT is 1:4 with the mass ratio of nano-ZnO.The preferred mean diameter of described nano-ZnO is the ZnO nano powder of 20nm, excellent Elect bar-shaped or flower-shaped ZnO nano powder as.

(7) described functional material preparation method is as follows: by nanometer silver/TiO in vacuum mixing machine₂Anti-biotic material and Duo Bi Carbon nanotube/nano ZnO removes in the diatom Rhizoma Panacis Japonici soil that aldehyde material joins 40 parts by weight 3:5, at vacuum condition, 120r/ Stir 30 minutes under the speed of min, allow each component adsorb in kieselguhr；The polypropylene of 20 parts is added in the kieselguhr obtained Acid esters emulsion, vacuum mixing machine stirs 20 minutes under the speed of 300r/min, makes polyacrylate dispersion be coated with by kieselguhr Getting up, formed with kieselguhr as core, polyacrylate is the capsule of shell, makes the granule of a diameter of 1mm in pellet processing machine, then By prepared granule natural drying 12 hours.

Below in conjunction with embodiment, the present invention will be described in detail.

Embodiment 1

A kind of antibacterial except the 3D printing compound polyurethane material of aldehyde, it is made up of the raw material of following weight portion meter: polyurethane 100 Part, compounded mix 8 parts, functional material 2 parts, light stabilizer 0.2 part, coupling agent 5 parts, levelling agent 0.1 part, dispersed lubricant 3 parts With 0.5 part of antioxidant.Described compounded mix 3:2 by weight is by Graphene/SiO₂Compounded mix is multiple with graphene/carbon acid calcium Conjunction filler forms.

The preparation method of this composite comprises the following steps:

(1) pretreatment urethane raw: urethane raw is ground into 300 mesh powder, is scattered in pure water, ultrasonic (power 300W) after 1 hour, ultrasonic limit, limit microwave exposure (2500MHz, temperature controls at 85 DEG C) 1 hour；Stop ultrasonic and microwave spoke According to, washing, discharging, it is dried, obtains pretreatment polyurethane；

(2) a PU master batch is prepared: by Graphene/SiO₂Compounded mix ultrasonic agitation (500KW ultrasonic vibration and 1200r/min Centrifugal speed stirs) it is scattered in pure water, obtain the first dispersion liquid, standby；By graphene/carbon acid calcium compounded mix ultrasonic agitation (500KW ultrasonic vibration and the stirring of 1200r/min centrifugal speed) is scattered in pure water, obtains the second dispersion liquid, standby；In heating temperature Under degree (60 DEG C), being dissolved in organic solvent by the pretreatment polyurethane of 3/5ths, obtain polyurethane solutions, one dividing into three obtains First part, second part, the 3rd part of polyurethane solutions, standby；Under temperature constant state (60 DEG C), limit high-speed stirred (1200r/min) limit Ultrasonic (power 500KW) first part of polyurethane solutions, drips the first dispersion liquid, ultrasonic agitation 30min；Continue dropping second part to gather Urethane solution, ultrasonic agitation 30min；Continue dropping the second dispersion liquid, ultrasonic agitation 30min；Continue the 3rd part of polyurethane of dropping Solution, ultrasonic agitation 30min, obtain polyurethane mixed liquor；What polyurethane mixed liquor was passed through spray dryer stocks in groove, with Polyurethane mixed liquor is ejected in spray dryer by the speed of 300ml/min, is dried to obtain a PU master batch；Described spray drying The nozzle diameter of device is 0.6mm, and dry air flow rates is at 35m³/ h, temperature 150 DEG C；

(3) the 2nd PU master batch is prepared: (500KW ultrasonic vibration and 1200r/min centrifugal speed are stirred by functional material ultrasonic agitation Mix) it is scattered in pure water, obtain functional material dispersion liquid, standby；Under heating-up temperature (60 DEG C), the pretreatment by 1/5th gathers Urethane is dissolved in organic solvent, obtains polyurethane solutions；Under temperature constant state (60 DEG C), limit high-speed stirred (1200r/min) limit Ultrasonic (power 500KW) polyurethane solutions, drips functional material dispersion liquid, ultrasonic agitation 60min, obtains polyurethane mixed liquor； What polyurethane mixed liquor was passed through spray dryer stocks in groove, is ejected into by polyurethane mixed liquor with the speed of 300ml/min In spray dryer, it is dried to obtain the 2nd PU master batch；The nozzle diameter of described spray dryer is 0.6mm, and dry air flow rates exists 35m³/ h, temperature 150 DEG C；

(4) pretreatment polyurethane will be remained, a PU master batch, the 2nd PU master batch, light stabilizer, coupling agent, levelling agent, dispersion profit Joining after lubrication prescription and antioxidant melting mixing in mechanical lapping pulverizer, obtaining mean diameter after pulverizing is the poly-of 30 ~ 40 μm Urethane composite powder, is placed at 95 DEG C and is dried 2h；Dried powder is added double screw extruder, then cools down molding Obtain shape wire, rolling, obtain the Thermoplastic polyurethane composite material of 3D printer.

The hot strength of prepared compound polyurethane material is 25.35MPa, and Young's modulus is 0.05GPa.

Embodiment 2

Based on embodiment 1, difference is: functional material 1 part.The hot strength of prepared compound polyurethane material is 24.05MPa, Young's modulus is 0.05GPa.

Embodiment 3

Based on embodiment 1, difference is: functional material 5 parts.The hot strength of prepared compound polyurethane material is 23.95MPa, Young's modulus is 0.05GPa.

Embodiment 4

Based on embodiment 1, difference is: increase Graphene 3 parts.The hot strength of prepared compound polyurethane material is 40.35MPa, Young's modulus is 0.06GPa.

Embodiment 5

A kind of antibacterial except the 3D printing compound polyurethane material of aldehyde, it is made up of the raw material of following weight portion meter: polyurethane 100 Part, compounded mix 8 parts, functional material 2 parts, graphene quantum dot 0.5 part, porous graphene 1 part, light stabilizer 0.2 part, coupling Agent 5 parts, levelling agent 0.1 part, dispersed lubricant 3 parts and 0.5 part of antioxidant.Described compounded mix by weight 3:2 by Graphene/ SiO₂Compounded mix forms with graphene/carbon acid calcium compounded mix；

The preparation method of this composite comprises the following steps:

(1) pretreatment urethane raw: urethane raw is ground into 300 mesh powder, is scattered in pure water, ultrasonic (power 300W) after 1 hour, ultrasonic limit, limit microwave exposure (2500MHz, temperature controls at 85 DEG C) 1 hour；Stop ultrasonic and microwave spoke According to, washing, discharging, it is dried, obtains pretreatment polyurethane；

(2) a PU master batch is prepared: by Graphene/SiO₂Compounded mix ultrasonic agitation (500KW ultrasonic vibration and 1200r/min Centrifugal speed stirs) it is scattered in pure water, obtain the first dispersion liquid, standby；By graphene/carbon acid calcium compounded mix ultrasonic agitation (500KW ultrasonic vibration and the stirring of 1200r/min centrifugal speed) is scattered in pure water, obtains the second dispersion liquid, standby；In heating temperature Under degree (60 DEG C), being dissolved in organic solvent by the pretreatment polyurethane of 3/5ths, obtain polyurethane solutions, one dividing into three obtains First part, second part, the 3rd part of polyurethane solutions, standby；Under temperature constant state (60 DEG C), limit high-speed stirred (1200r/min) limit Ultrasonic (power 500KW) first part of polyurethane solutions, drips the first dispersion liquid, ultrasonic agitation 30min；Continue dropping second part to gather Urethane solution, ultrasonic agitation 30min；Continue dropping the second dispersion liquid, ultrasonic agitation 30min；Continue the 3rd part of polyurethane of dropping Solution, ultrasonic agitation 30min；Continue dropping graphene quantum dot solution, ultrasonic agitation 30min, obtain polyurethane mixed liquor；Will What polyurethane mixed liquor was passed through spray dryer stocks in groove, with the speed of 300ml/min, polyurethane mixed liquor is ejected into spray In mist exsiccator, it is dried to obtain a PU master batch；The nozzle diameter of described spray dryer is 0.6mm, and dry air flow rates exists 35m³/ h, temperature 150 DEG C；

(3) the 2nd PU master batch is prepared: (500KW ultrasonic vibration and 1200r/min centrifugal speed are stirred by functional material ultrasonic agitation Mix) it is scattered in pure water, obtain functional material dispersion liquid, standby；By porous graphene ultrasonic agitation (500KW ultrasonic vibration and 1200r/min centrifugal speed stirs) it is scattered in pure water, obtain porous graphene dispersing solution, standby；At heating-up temperature (60 DEG C) Under, the pretreatment polyurethane of 1/5th is dissolved in organic solvent, obtains polyurethane solutions, be divided into two the 4th part, 5th part of polyurethane solutions；Under temperature constant state (60 DEG C), ultrasonic (the power 500KW) the 4th in limit high-speed stirred (1200r/min) limit Part polyurethane solutions, drips functional material dispersion liquid, ultrasonic agitation 60min；Continue dropping porous graphene dispersion liquid, ultrasonic stir Mix 60min, obtain polyurethane mixed liquor；What polyurethane mixed liquor was passed through spray dryer stocks in groove, with 300ml/min's Polyurethane mixed liquor is ejected in spray dryer by speed, is dried to obtain the 2nd PU master batch；The nozzle of described spray dryer is straight Footpath is 0.6mm, and dry air flow rates is at 35m³/ h, temperature 150 DEG C；

(4) pretreatment polyurethane will be remained, a PU master batch, the 2nd PU master batch, light stabilizer, coupling agent, levelling agent, dispersion profit Joining after lubrication prescription and antioxidant melting mixing in mechanical lapping pulverizer, obtaining mean diameter after pulverizing is the poly-of 30 ~ 40 μm Urethane composite powder, is placed at 95 DEG C and is dried 2h；Dried powder is added double screw extruder, then cools down molding Obtain shape wire, rolling, obtain the Thermoplastic polyurethane composite material of 3D printer.Prepared compound polyurethane material Hot strength be 78.56MPa, Young's modulus is 0.07GPa.

The preparation method of described porous graphene is with reference to the embodiment 1 of Chinese patent application CN104555999A；Described stone The preparation method of ink alkene quantum dot is with reference to the embodiment 5 of Chinese patent CN102190296B.It should be noted that prepare graphite Alkene quantum dot, is scattered in second further according to actual amount ultrasonic agitation (500KW ultrasonic vibration and the stirring of 1200r/min centrifugal speed) In alcohol, this is only a kind of embodiment, it is also possible to obtain by other means.

Embodiment 6

Based on embodiment 5, difference is: it is 0.8% that described graphene quantum dot accounts for the mass percent of polyurethane；Porous It is 2% that Graphene accounts for the mass percent of polyurethane.The hot strength of prepared compound polyurethane material is 87.48MPa, poplar Family name's modulus is 0.09GPa.

Embodiment 7

Based on embodiment 5, difference is: it is 1% that described graphene quantum dot accounts for the mass percent of polyurethane；Porous stone It is 0.5% that ink alkene accounts for the mass percent of polyurethane.The hot strength of prepared compound polyurethane material is 82.55MPa, poplar Family name's modulus is 0.08GPa.

Comparative example 1

A kind of antibacterial except the 3D printing compound polyurethane material of aldehyde, it is made up of the raw material of following weight portion meter: polyurethane 100 Part, compounded mix 8 parts, TiO₂1 part, nanometer silver 2 parts, nano-ZnO 5 parts, light stabilizer 0.2 part, coupling agent 5 parts, levelling agent 0.1 Part, dispersed lubricant 3 parts and 0.5 part of antioxidant.

The preparation method of this composite comprises the following steps: weigh various raw material in proportion；The various raw materials that will weigh It is placed in 95 DEG C of dry 3h in vacuum drying oven so that each feed moisture content is down to 0.27%；Join after each raw materials melt is mixed In mechanical lapping pulverizer, obtain the Thermoplastic polyurethane composite material powder that mean diameter is 30 ~ 40 μm after pulverizing, be placed in 95 2h it is dried at DEG C；Dried powder adds double screw extruder, and then cooling molding obtains shape wire, rolling, obtains The Thermoplastic polyurethane composite material of 3D printer.The hot strength of prepared compound polyurethane material is 19.55MPa, Young's modulus is 0.04GPa.

Comparative example 2

A kind of antibacterial except the 3D printing compound polyurethane material of aldehyde, it is made up of the raw material of following weight portion meter: polyurethane 100 Part, compounded mix 8 parts, nanometer silver/TiO₂Anti-biotic material 3 parts, nano-ZnO 5 parts, light stabilizer 0.2 part, coupling agent 5 parts, levelling Agent 0.1 part, dispersed lubricant 3 parts and 0.5 part of antioxidant.

The preparation method of this composite comprises the following steps: weigh various raw material in proportion；The various raw materials that will weigh It is placed in 95 DEG C of dry 3h in vacuum drying oven so that each feed moisture content is down to 0.27%；Join after each raw materials melt is mixed In mechanical lapping pulverizer, obtain the Thermoplastic polyurethane composite material powder that mean diameter is 30 ~ 40 μm after pulverizing, be placed in 2h it is dried at 95 DEG C；Dried powder adds double screw extruder, and then cooling molding obtains shape wire, rolling, obtains Thermoplastic polyurethane composite material to 3D printer.The hot strength of prepared compound polyurethane material is 19.49MPa, Young's modulus is 0.04GPa.

Comparative example 3

Based on embodiment 1, difference is: nanometer silver/TiO in described functional material₂Anti-biotic material and multi-walled carbon nano-tubes/ Nano-ZnO is 1:1 except the weight ratio of aldehyde material.The hot strength of prepared compound polyurethane material is 19.35MPa, Young Modulus is 0.04GPa.

Comparative example 4

Based on embodiment 1, difference is: nanometer silver/TiO in described functional material₂Anti-biotic material and multi-walled carbon nano-tubes/ Nano-ZnO is 5:3 except the weight ratio of aldehyde material.The hot strength of prepared compound polyurethane material is 19.55MPa, Young Modulus is 0.04GPa.

Comparative example 5

A kind of antibacterial except the 3D printing compound polyurethane material of aldehyde, it is made up of the raw material of following weight portion meter: polyurethane 100 Part, calcium carbonate 4 parts, SiO₂4 parts, light stabilizer 0.2 part, coupling agent 5 parts, levelling agent 0.1 part, dispersed lubricant 3 parts and antioxygen Agent 0.5 part.

The preparation method of this composite comprises the following steps: weigh various raw material in proportion；The various raw materials that will weigh It is placed in 95 DEG C of dry 3h in vacuum drying oven so that each feed moisture content is down to 0.27%；Join after each raw materials melt is mixed In mechanical lapping pulverizer, obtain the Thermoplastic polyurethane composite material powder that mean diameter is 30 ~ 40 μm after pulverizing, be placed in 2h it is dried at 95 DEG C；Dried powder adds double screw extruder, and then cooling molding obtains shape wire, rolling, obtains Thermoplastic polyurethane composite material to 3D printer.The hot strength of prepared compound polyurethane material is 9.2MPa, Young's modulus is 0.02GPa.

Measure of merit

The finished product obtaining embodiment 1 ~ 7 and comparative example 1 ~ 5 is tested:

(1) anti-microbial property test: detect according to GB/T23763-2009 national standard, select escherichia coli ATCC8739 and Staphylococcus aureus ATCC6538P is strain.

(2) test of soil resistance: detect according to GB/T3810.14-2006 national standard, selects chrome green for polluting Agent.

(3) except the test of aldehyde rate: use JC/T 1074-2008 standard to measure.

Testing result: as shown in the table:

Embodiment described above only have expressed embodiments of the present invention, therefore it describes more concrete and detailed, but can not be And it is interpreted as the restriction to the scope of the claims of the present invention, as long as using the technical side that the form of equivalent or equivalent transformation is obtained Case, all should fall within the scope and spirit of the invention.

Claims (3)

1. antibacterial except a 3D printing compound polyurethane material for aldehyde, it is made up of the raw material of following weight portion meter: polyurethane 90 ~ 100 parts, compounded mix 5 ~ 10 parts, functional material 1 ~ 5 part, Graphene 0 ~ 5 part, light stabilizer 0.1 ~ 1 part, coupling agent 5 ~ 10 Part, levelling agent 0.1 ~ 2 part, dispersed lubricant 1 ~ 6 part and 0.1 ~ 1 part of antioxidant；Wherein, described functional material include nanometer silver/ TiO₂Anti-biotic material and multi-walled carbon nano-tubes/nano-ZnO are except aldehyde material；Described compounded mix by weight 3:2 by Graphene/ SiO₂Compounded mix forms with graphene/carbon acid calcium compounded mix；

The preparation method of described 3D printing compound polyurethane material, comprises the following steps:

(1) pretreatment urethane raw: urethane raw is ground into 300 mesh powder, is scattered in pure water, after ultrasonic 1 hour, Ultrasonic limit, limit microwave exposure 1 hour；Stop ultrasonic and microwave exposure, washing, discharging, it is dried, obtains pretreatment polyurethane；

(2) a PU master batch is prepared: by Graphene/SiO₂Compounded mix ultrasonic agitation is scattered in pure water, obtains the first dispersion liquid, Standby；Graphene/carbon acid calcium compounded mix ultrasonic agitation is scattered in pure water, obtains the second dispersion liquid, standby；In heating-up temperature Under, the pretreatment polyurethane of 3/5ths is dissolved in organic solvent, obtains polyurethane solutions, one dividing into three obtain first part, Second part, the 3rd part of polyurethane solutions, standby；Under temperature constant state, the ultrasonic first part of polyurethane solutions in high-speed stirred limit, limit, dropping First dispersion liquid, ultrasonic agitation 30 ~ 60min；Continue second part of polyurethane solutions of dropping, ultrasonic agitation 30 ~ 60min；Continue to drip Add the second dispersion liquid, ultrasonic agitation 30 ~ 60min；Continue the 3rd part of polyurethane solutions of dropping, ultrasonic agitation 30 ~ 60min, obtain Polyurethane mixed liquor；What polyurethane mixed liquor was passed through spray dryer stocks in groove, and the speed with 200～300ml/min will Polyurethane mixed liquor is ejected in spray dryer, is dried to obtain a PU master batch；

(3) prepare the 2nd PU master batch: functional material ultrasonic agitation be scattered in pure water, obtain functional material dispersion liquid, standby；? Under heating-up temperature, the pretreatment polyurethane of 1/5th is dissolved in organic solvent, obtains polyurethane solutions；Temperature constant state Under, the ultrasonic polyurethane solutions in high-speed stirred limit, limit, drip functional material dispersion liquid, ultrasonic agitation 30 ~ 60min, obtain polyurethane Mixed liquor；What polyurethane mixed liquor was passed through spray dryer stocks in groove, is mixed by polyurethane with the speed of 200 ~ 300ml/min Close liquid to be ejected in spray dryer, be dried to obtain the 2nd PU master batch；

(4) pretreatment polyurethane will be remained, a PU master batch, the 2nd PU master batch, light stabilizer, coupling agent, levelling agent, dispersion profit Joining after lubrication prescription and antioxidant melting mixing in mechanical lapping pulverizer, obtaining mean diameter after pulverizing is the poly-of 30 ~ 40 μm Urethane composite powder；It is placed at 95 DEG C and is dried 2h；Dried powder is added double screw extruder, then cools down molding Obtain shape wire, rolling, obtain the compound polyurethane material of 3D printer.

The most according to claim 1 antibacterial except the 3D printing compound polyurethane material of aldehyde, it is characterised in that described function Material preparation method is as follows: by nanometer silver/TiO in vacuum mixing machine₂Anti-biotic material removes with multi-walled carbon nano-tubes/nano-ZnO Aldehyde material joins in the diatom Rhizoma Panacis Japonici soil of 40 parts by weight 3:5, vacuum condition, 120r/min speed under stir 30 points Clock, allows each component adsorb in kieselguhr；The polyacrylate dispersion of 20 parts, vacuum mixing machine is added in the kieselguhr obtained Stirring 20 minutes under the speed of 300r/min, make polyacrylate dispersion be coated with by kieselguhr, formation with kieselguhr is Core, polyacrylate is the capsule of shell, makes the granule of a diameter of 1mm in pellet processing machine, then by prepared granule natural drying 12 hours.

The most according to claim 1 antibacterial except the 3D printing compound polyurethane material of aldehyde, it is characterised in that it is by following The raw material composition of weight portion meter: polyurethane 100 parts, compounded mix 8 parts, functional material 2 parts, light stabilizer 0.2 part, coupling agent 5 Part, levelling agent 0.1 part, dispersed lubricant 3 parts and 0.5 part of antioxidant.