CN1730802A - Nano temperature memory material and its preparation method and application - Google Patents

Nano temperature memory material and its preparation method and application Download PDF

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Publication number
CN1730802A
CN1730802A CNA200510029442XA CN200510029442A CN1730802A CN 1730802 A CN1730802 A CN 1730802A CN A200510029442X A CNA200510029442X A CN A200510029442XA CN 200510029442 A CN200510029442 A CN 200510029442A CN 1730802 A CN1730802 A CN 1730802A
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memory material
polymer
temperature memory
preparation
water
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CN1333002C (en
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潘跃进
吴东来
魏征
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Shanghai Zhongda Science & Technology Development Co Ltd
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Shanghai Zhongda Science & Technology Development Co Ltd
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Abstract

The present invention is nanometer temperature memory material and its preparation process and application. The preparation process includes the following steps: 1. adding surfactant in 0.1-3 wt% into nanometer carbon black powder in 5-70 wt% in high speed stirrer for surface modification; 2. adding water soluble adhesive in 1-7 wt%; 3. adding pure water; 4. mixing water soluble adhesive with pure water homogeneously; 5. adding dispersant in 0.1-3 wt%; and 6. dispersing the mixture in vibrating ball mill. The nanometer temperature memory material has the advantages of obvious 'temperature memory' function for automatic temperature control, etc. and may be used in various textile material, conducting fabric, and indoor and outdoor decorating engineering material.

Description

A kind of nano temperature memory material and its production and application
Technical field
The present invention is about a kind of nano material, especially in regard to a kind of nano temperature memory material and its production and application.
Background technology
At present, stimulate to external world to produce the fiber of intelligent response and the research and development of textiles has caused people's very big concern, some experts regard alert and resourceful textiles (smart textiles) as the future of textile garment industry.And conductive fiber and fabric have become the basis of this class textile development, its research and application not only are confined to eliminate static and absorb electromagnetic wave, after mixing a certain amount of conducting particles (as carbon black, graphite, metal oxide etc.) in the polymeric matrix, can make have the PTC effect organic PTC material of (being Positive Tempera ture Coefficient).The distinguishing feature of this material is that resistance is nonlinear change with temperature, and reveal unique ptc characteristics at the critical composition region list, the structure and the performance that vary with temperature material have reversibility, when temperature raises or reduction, material can carry out self-control along curve automatically, therefore, the someone is referred to as " temperature memory material ".The automatic control heating element heater that utilizes this characteristic to make after applying certain interchange or DC voltage, can heat up rapidly, and constant in predetermined temperature, thereby plays the temperature adjustment function and sensitive " switch " effect of a kind of " intellectuality ".Conductive filler as polymer composite mainly contains metal dust and carbon black two big classes.Its kind has: metal fibre (stainless steel fibre, copper fiber, aluminum fiber, nickel fiber etc.), electrically conductive organic fibre.Electrically conductive organic fibre comprises common textile fibers plating, common textile fibers plating carbon again; The conductive fiber that conductive materials such as carbon black, graphite, metal or metal oxide and common high polymer blend or composite spinning are made; The electrically conductive organic fibre that the conducting polymer direct fabrics are made.But find in actual applications, no matter adopt blend or composite spinning and be coated on way such as fiber surface, still have electrically conductive organic fibre spinning or blending difficulty, fiber rubbed or when bending carbon black and metal dust easily come off, electrical and thermal conductivity performance descends, and therefore is not used widely.It is perishable and loading is higher (being higher than nanometer class carbon black class material 50%) to adopt the easy surface oxidation of metal dust, goods in the conductive filler to meet water, and shortcoming such as cost an arm and a leg makes it be subjected to considerable restraint on using.And carbon black class conductive filler abundant, cheap than metal dust class source, be difficult for oxidation, therefore generally ptc material all adopts the carbon black conductive material.The present invention is different from above method, the way that adopts coating, dipping, padding finishing or mix application with other material is applied to nano temperature memory material weaving face fabric, conduction lining, dress and personal adornment, household textiles, rubber-plastics material, cable material, composite, reaches in the indoor and outdoor decorative engineering material.By above principle conductive carbon black is made above-mentioned semiconductive material, after semiconductive material applies certain interchange or DC voltage, this material consumption electric energy and rapid heating up, electric energy transforms heat energy, the electric conversion rate of carbon black is very fast, after temperature constantly raises, the semiconductive material expanded by heating, but conductive carbon black particle volume expansion rate causes distance increasing between the conducting particles less than the semiconductive material expansion rate, semiconductive material resistance progressively increases, when temperature continued to be elevated to certain numerical value, resistance sharply increased even is infinitely great, and semiconductive material almost insulate to form and opens circuit, electric current is very little, and temperature descends.When temperature reduced, distance reduced between the conducting particles, and the resistance of semiconductive material reduces, and electric current increases, and temperature rises.Through above-mentioned repeatedly repeatedly, and with temperature constant when the predetermined scope, thereby reach a kind of intelligentized have the temperature memory feature automatically and the temperature control material.For guaranteeing the quality of nano temperature memory material, simultaneously, it is in use dispersed irregular to need to solve the nanometer carbon black powder, and the problem of reuniting easily takes place.Above problem can cause nano carbon glue mixed system instability, even produces particle, and that can not effectively bring into play nano temperature memory material should have effect and effect
Summary of the invention
The objective of the invention is to overcome the deficiencies in the prior art, (1) a kind of nano temperature memory material is provided; (2) a kind of nano temperature memory material preparation method; (3) nano temperature memory material is used.The objective of the invention is to realize: carbon black class material carry out nano powderization by nanometer technology by following technical method, because the height of conductance and carbon black particle size and distribution thereof, shape, structure, porosity is relevant, after carbon black material reaches nanoscale, specific area increases, the surface atom number, surface energy and surface tension are along with the decline of particle diameter sharply increases, show as small-size effect, skin effect, nano-meter characteristic such as quantum size effect and macro quanta tunnel effect causes every performance of material to be different from normal grain, carbon black particle is more little, help forming the chain type conductive structure, can change and improve its electrical and thermal conductivity performance greatly.The nanometer carbon black particle is carried out surface modification treatment, and its method has plasma processing or methods such as vapour deposition process, microwave plasma polymerization.Can improve interface binding ability and the compatibility and the electric conductivity of nanometer carbon black particle surface physicochemical properties, change and raising carbon black particle and matrix.Carry out dispersion treatment in addition, its method has ultrasonic dispersion or methods such as mechanical dispersion, wetting dispersion.Decentralization is big more, and its conductance is high more.By above-mentioned way, preparation stabilized nano carbon black powder and water-soluble coating glue, can effectively solve nano temperature memory material at coating or dipping, pad in the not even easy agglomeration traits of dispersiveness.
Carbon black class material (domestic market is on sale) is mainly selected conduction class carbon black, acetylene carbon black, graphite carbon black, oven process carbon black, channel carbon black for use.The present invention adopts high electric conductivity carbon black or acetylene carbon black, the graphite carbon black etc. of good conductivity, and with the carbon black nano-powderization, its particle diameter is 30-200nm by nanometer technology, than resistance 0.5 Ω .cm, and specific area>100m 2/ g adopts physicochemical method the nanometer carbon black powder to be implemented the surface modification and the dispersion treatment of mechanical type.
Said composition is mainly composed of the following components by weight percentage for nanometer material temperature memory material of the present invention:
Nanometer carbon black powder 5~70%
Surface modifier 0.1%~3%
Dispersant 0.1%~3%
Water-soluble binder 1%~7%
The pure water surplus.
Surface modifier is selected from titanate esters or stearic acid.
Dispersant is selected from polycarboxylate sodium's type copolymer, polycarboxylic acids ammonium salt type copolymer, contains a kind of or its mixture in the oxygen base co-polymer.
Water-soluble binder is selected from polyurethane, acrylic acid polymer, ethene vinyl chloride-base polymer, polyamide polymer, polyester polymers, styrene-butadiene polymer.
The surface modifier (surface modifier is selected from titanate esters or stearic acid) that the nanometer carbon black powder of the method for making of nano temperature memory material of the present invention: 5-70% adds 0.1%-3% carries out chemisorbed to the nanometer carbon black particle surface, by high-speed stirred stir, filter, technology such as drying, pulverizing, screening carries out surface modification, mixing speed 2500 is changeed~3000 rev/mins, 3~6 hours time.Carry out dispersion treatment then, before the dispersion treatment, water-soluble binder (the solid content 30-50% that adds 1%-7%, viscosity 800-4000mpa.s water-soluble binder is selected from polyurethane, the acrylic acid polymer, the ethene vinyl chloride-base polymer, polyamide polymer, polyester polymers; styrene-butadiene polymer) mixes with pure water (surplus); add dispersant 0.1~3% (dispersant is selected from polycarboxylate sodium's type copolymer; polycarboxylic acids ammonium salt type copolymer; contain a kind of or its mixture in the oxygen base co-polymer) again; above-mentioned mixture (the nanometer carbon black material after the modification; adhesive and water; dispersant) is placed vibrator simultaneously; adopt vibrator to disperse; vibrator rotating speed 3000 changes~4000 rev/mins, time 15-20 hour.Make water miscible nano temperature memory material, this material is the black water-soluble liquid, viscosity 100-500mpa.s, and heat resisting temperature<150 ℃, low temperature resistant<-10 ℃, pH value is 7-8.
The disclosed nano temperature memory material of the present invention, its advantage shows:
1. technology advanced person, workable, can be used for the coating of all kinds of weaving face fabrics, conduction lining, indoor and outdoor decorative engineering material, rubber-plastics material, cable material, frost-resistant material, composite, dress and personal adornment, household textiles etc. and dipping, padding finishing or mix application with other material.
2. various materials, its good stability of product by nano temperature memory material exploitation, folding is curved and rub resistance is good, electrical and thermal conductivity performance is good, alternative air-conditioning, hot-water heating, hot air heating, energy consumption and comprehensive cost are low, and energy-conservation is more than 50% of air-conditioning, far infrared transmissivity>80%, heat accumulation function is good, and temperature retention time is more than 4 times of heating time, and energy-saving effect is remarkable.
3. raw material sources are abundant, and carbon black material is difficult for oxidation, chance water does not corrode, and loading is about 50% of a metal dust class, and cheap, input cost is low, and safe and reliable, and is nonpoisonous and tasteless, do not have corrosion, noiselessness.
4. nano temperature memory material can produce far infrared and anion function, effectively intercepts electromagnetic wave, and is very useful and environment friendly and pollution-free to health.
The specific embodiment
Below in conjunction with embodiment the present invention is further described.
Embodiment 1
(magnificent light HG-1P type powdery high electric conductivity carbon black, the photochemical factory of China provides its particle diameter 30~200nm to the nanometer carbon black powder of 50g by Linzhou City, Shandong Zibo city, than resistance 0.5 Ω .cm, specific area>100m 2/ g) add the titanate esters of 1g, adopt homogenizer to carry out surface modification, 3500 rev/mins of rotating speeds, carry out dispersion treatment then at 3 hours time.Before the dispersion treatment, polyurethane (solid content 30-50%, viscosity 800-4000mpa.s) with 10g mixes with the 919g pure water earlier, and polycarboxylate sodium's type copolymer and the said mixture with 30g places the vibrator dispersion treatment simultaneously again, 4000 rev/mins of vibrator rotating speeds, 15 hours time, promptly make water miscible nano temperature memory material, this material is the black water-soluble liquid, viscosity 500mpa.s, heat resisting temperature<150 ℃, low temperature resistant<-10 ℃, pH value is 7-8.
Embodiment 2
(magnificent light HG-1P type powdery high electric conductivity carbon black, the photochemical factory of China provides its particle diameter 30~200nm to the nanometer carbon black powder of 700g by Linzhou City, Shandong Zibo city, than resistance 0.5 Ω .cm, specific area>100m 2m 2/ g), add the stearic acid of 20g, adopt homogenizer to carry out surface modification, 3000 rev/mins of rotating speeds, carry out dispersion treatment then at 4 hours time.Before the dispersion treatment, elder generation is with acrylic acid polymer adhesive (the solid content 30-50% of 70g, viscosity 800-4000mpa.s) pure water with 119g mixes, polycarboxylate sodium's type copolymer and said mixture with 1g places the vibrator dispersion treatment simultaneously again, 3000 rev/mins of vibrator rotating speeds, 20 hours time, promptly make water miscible nano temperature memory material, this material is the black water-soluble liquid, viscosity 100mpa.s, heat resisting temperature<150 ℃, low temperature resistant<-10 ℃, pH value is 7-8.
Embodiment 3
The nanometer carbon black powder acetylene carbon black of 240g, Jindan, Wuhan acetylene carbon black factory provides its particle diameter 30~200nm, than resistance 1.9 Ω .m, specific area>100m 2/ g) add the titanate esters of 8g, adopt homogenizer to carry out surface modification, 2500 rev/mins of rotating speeds, carry out dispersion treatment then at 5 hours time.Before the dispersion treatment, elder generation is with polyamide polymer adhesive (the solid content 30-50% of 32g, viscosity 800-4000mpa.s) pure water with 504g mixes, again with 64g contain the oxygen base co-polymer and said mixture places the vibrator dispersion treatment simultaneously, 3500 rev/mins of vibrator rotating speeds, 17 hours time, promptly make water miscible nano temperature memory material, this material is the black water-soluble liquid, viscosity 200mpa.s, heat resisting temperature<150 ℃, low temperature resistant<-10 ℃, pH value is 7-8.
Embodiment 4
(magnificent light HG-1P type powdery high electric conductivity carbon black and acetylene carbon black respectively account for 50% to the nanometer carbon black powder of 245g, provide its particle diameter 30~200nm by Linzhou City, Shandong Zibo city photochemical factory of China and Jindan, Wuhan acetylene carbon black factory, than resistance 0.5 Ω .cm, specific area>100m 2/ g) add the stearic acid of 21g, adopt homogenizer to carry out surface modification, 3200 rev/mins of rotating speeds, carry out dispersion treatment then at 5 hours time.Before the dispersion treatment, elder generation is with ethylene oxy vinyl polymer binder (the solid content 30-50% of 35g, viscosity 800-4000mpa.s) pure water with 392g mixes, again with 7g polycarboxylate sodium type copolymer, polycarboxylic acids ammonium salt type copolymer, contain oxygen base co-polymer mixture and said mixture and place the vibrator dispersion treatment simultaneously, 3800 rev/mins of vibrator rotating speeds, 19 hours time, but promptly make the nano temperature memory material of water-soluble coating, this material is the black water-soluble liquid, viscosity 200mpa. heat resisting temperature<150 ℃, low temperature resistant<-10 ℃, pH value is 7-8.

Claims (12)

1, a kind of nano temperature memory material is characterized in that: said composition is mainly composed of the following components by weight percentage:
Nanometer carbon black powder 5~70%
Surface modifier 0.1%~3%
Dispersant 0.1%~3%
Water-soluble binder 1%~7%
The pure water surplus.
2, according to the nano temperature memory material of claim 1, it is characterized in that: be selected from titanate esters or stearic acid as surface modifier.
3, according to the nano temperature memory material of claim 1, it is characterized in that: dispersant is selected from polycarboxylate sodium's type copolymer, polycarboxylic acids ammonium salt type copolymer, contains a kind of or its mixture in the oxygen base co-polymer.
4, according to the nano temperature memory material of claim 1, it is characterized in that: water-soluble binder is selected from polyurethane, acrylic acid polymer, ethene vinyl chloride-base polymer, polyamide polymer, polyester polymers, styrene-butadiene polymer.
5, according to the preparation method of the nano temperature memory material of claim 1, may further comprise the steps: (1) 5~70% nanometer carbon black powder adds 0.1%~3% surface modifier, adopts homogenizer to carry out surface modification; (2) water-soluble binder of adding 1%~7%; (3) add pure water; (4) water-soluble binder and pure water mix; (5) dispersant of adding 0.1~3%; (6) said mixture is placed vibrator carry out dispersion treatment.
6, according to the preparation method of claim 5, it is characterized in that: surface modifier is selected from titanate esters or stearic acid.
7, according to the preparation method of claim 5, it is characterized in that: dispersant is selected from polycarboxylate sodium's type copolymer, polycarboxylic acids ammonium salt type copolymer, contains a kind of or its mixture in the oxygen base co-polymer.
8, according to the preparation method of claim 5, it is characterized in that: water-soluble binder is selected from polyurethane, acrylic acid polymer, ethene vinyl chloride-base polymer, polyamide polymer, polyester polymers, styrene-butadiene polymer.
9, according to the preparation method of claim 5, it is characterized in that: homogenizer rotating speed 2500 changes~3500 rev/mins, 3~6 hours time.
10, according to the preparation method of claim 5, it is characterized in that: vibrator rotating speed 3000 changes~4000 rev/mins, 15~20 hours time.
11, according to the preparation method of claim 5, it is characterized in that: the water-soluble nano temperature memory material viscosity 100~500mpa.s that makes.
12, use in conduction lining and indoor and outdoor decorative engineering material, dress and personal adornment coating according to the nano temperature memory material of claim 1.
CNB200510029442XA 2005-09-06 2005-09-06 Nano temperature memory material and its preparation method and application Active CN1333002C (en)

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* Cited by examiner, † Cited by third party
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CN104631100A (en) * 2015-02-10 2015-05-20 东莞市科迪实业有限公司 Anti-static dip-coating liquid and anti-static non-woven fabric using same
CN105603786A (en) * 2016-03-11 2016-05-25 中山市汉科精细化工有限公司 Energy-saving and environment-friendly fabric pretreating agent for printing and dyeing and preparation method thereof
CN108660533A (en) * 2017-11-30 2018-10-16 紫罗兰家纺科技股份有限公司 A kind of production method of Intelligent Composite fabric
CN111155187A (en) * 2020-01-19 2020-05-15 浙江纳美新材料股份有限公司 Conductive black water-based color paste for coloring viscose stock solution and preparation method thereof
CN114921132A (en) * 2022-05-19 2022-08-19 山西长生伟业热能科技有限公司 Special energy-gathering nano slurry for greenhouse

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JPS63158566A (en) * 1986-12-23 1988-07-01 Canon Inc Toner for developing electrostatic charge image
US20030092833A1 (en) * 1997-02-12 2003-05-15 Joachim Frieling Universal pigment pastes and their use for the manufacture of aqueous paints
CN1219830C (en) * 2002-03-18 2005-09-21 姜祖斌 Thermosetting luminescent powder paint and its preparing process
CN1401691A (en) * 2002-09-24 2003-03-12 张万喜 Nanopowder composite polymer memory material
CN1493624A (en) * 2002-10-28 2004-05-05 北京华京五方实用纳米科技开发有限公 Ultramicro colour paste for fiber and paint colouring and its preparation method
CN1415551A (en) * 2002-12-01 2003-05-07 左伏根 Method for preparing iron oxide black by using dregs of iron mud produced in chemical production with technique of reduction method of titanium powder
JP4445375B2 (en) * 2003-12-19 2010-04-07 株式会社リコー Intermediate transfer member and film forming liquid composition thereof

Cited By (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN104631100A (en) * 2015-02-10 2015-05-20 东莞市科迪实业有限公司 Anti-static dip-coating liquid and anti-static non-woven fabric using same
CN105603786A (en) * 2016-03-11 2016-05-25 中山市汉科精细化工有限公司 Energy-saving and environment-friendly fabric pretreating agent for printing and dyeing and preparation method thereof
CN108660533A (en) * 2017-11-30 2018-10-16 紫罗兰家纺科技股份有限公司 A kind of production method of Intelligent Composite fabric
CN111155187A (en) * 2020-01-19 2020-05-15 浙江纳美新材料股份有限公司 Conductive black water-based color paste for coloring viscose stock solution and preparation method thereof
CN114921132A (en) * 2022-05-19 2022-08-19 山西长生伟业热能科技有限公司 Special energy-gathering nano slurry for greenhouse
CN114921132B (en) * 2022-05-19 2024-03-01 山西长生伟业热能科技有限公司 Special energy-gathering nano slurry for greenhouse

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Assignee: Shanghai Yusheng Special Wire Co., Ltd.

Assignor: Shanghai Zhongda Science & Technology Development Co., Ltd.

Contract fulfillment period: 2007.11.12 to 2012.11.12 contract change

Contract record no.: 2008310000139

Denomination of invention: Nano temperature memory material and its preparation method and application

Granted publication date: 20070822

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Record date: 2008.10.7

LIC Patent licence contract for exploitation submitted for record

Free format text: EXCLUSIVE LICENSE; TIME LIMIT OF IMPLEMENTING CONTACT: 2007.11.12 TO 2012.11.12; CHANGE OF CONTRACT

Name of requester: SHANGHAI YUSHENG SPECIAL WIRE CO., LTD.

Effective date: 20081007