CN101949046A - Preparation method of carbonate hydroxyapatite/carbon nano tube composite coating material - Google Patents

Preparation method of carbonate hydroxyapatite/carbon nano tube composite coating material Download PDF

Info

Publication number
CN101949046A
CN101949046A CN 201010287686 CN201010287686A CN101949046A CN 101949046 A CN101949046 A CN 101949046A CN 201010287686 CN201010287686 CN 201010287686 CN 201010287686 A CN201010287686 A CN 201010287686A CN 101949046 A CN101949046 A CN 101949046A
Authority
CN
China
Prior art keywords
carbon nanotube
preparation
hydroxylapatite
composite coating
phosphate
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Granted
Application number
CN 201010287686
Other languages
Chinese (zh)
Other versions
CN101949046B (en
Inventor
郭亚平
姚勇波
郭亚军
褚联峰
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Shanghai Normal University
University of Shanghai for Science and Technology
Original Assignee
Shanghai Normal University
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Shanghai Normal University filed Critical Shanghai Normal University
Priority to CN2010102876869A priority Critical patent/CN101949046B/en
Publication of CN101949046A publication Critical patent/CN101949046A/en
Application granted granted Critical
Publication of CN101949046B publication Critical patent/CN101949046B/en
Expired - Fee Related legal-status Critical Current
Anticipated expiration legal-status Critical

Links

Images

Landscapes

  • Materials For Medical Uses (AREA)

Abstract

The invention relates to the fields of electrochemistry and materials and discloses a method for preparing a carbonate hydroxyapatite/carbon nano tube composite coating, which mainly comprises the following two steps: (1) depositing calcium carbonate powder or calcium carbonate-containing powder and carbon nano tubes on the surface of a metal matrix to obtain a calcium carbonate powder/carbon nano tube coating by electrophoretic deposition; and (2) treating the calcium carbonate powder/carbon nano tube coating with a phosphoric acid buffer solution, and converting the treated solution into the carbonate hydroxyapatite/carbon nano tube composite coating. The method is executed at normal temperature and pressure, has the advantages of simple process, low equipment investment and the like, and is suitable for preparing implants of various complicated shapes. The obtained composite coating has the fine bioactivity of the carbonate hydroxyapatite, and also can give full play to the favorable mechanical properties of the carbon nano tubes and the metal matrix.

Description

A kind of preparation method of carbonate type hydroxylapatite/carbon nanotube composite coating material
Technical field
The present invention relates to electrochemistry, ceramic and biomaterial for medical purpose technical field, disclose a kind of carbonate type hydroxylapatite/carbon nanotube composite coating material and preparation method thereof.
Background technology
Carbonate type hydroxyapatite is the main inorganic composition of sclerous tissueses such as human body bone volume, tooth, owing to have excellent biological compatibility, biological activity, have no side effect, do not have advantage such as immune response.The human body osteocyte can be on phosphatic rock directly forms Chemical bond, and bonding strength height, good stability, has been widely used in substitute material for human hard tissues and repair materials.Yet, there are shortcomings such as fracture toughness property is low, Young's modulus is high, fragility is big in carbonate type hydroxyapatite, can only be applied in that alveolar ridge increases, the ear ossiculum is replaced and non-bearing material such as maxillofacial bone reparation, is difficult to be applied to the load bone material, therefore need strengthen toughness reinforcing to phosphatic rock.
The approach that improves the mechanical property of carbonate type hydroxyl apatite bioceramic mainly comprises following two kinds: (1) adds strongtheners such as carbon nanotube, carbon fiber in biological ceramics, the physical strength of the matrix material that obtains thus can with people's bone photo ratio.Carbon nanotube (CNTs) is a kind of structured material of excellent performance, not only has satisfactory stability, and has minimum yardstick and excellent mechanical property.Theoretical Calculation shows the Young's modulus of CNTs up to 5TPa, and intensity is about 100 times of steel, therefore is widely used as strengthening and toughening material.
The CNTs/ hydroxyapatite composite material mainly adopts mechanical blending method (patent CN 1440948A) at present, and CNTs and hydroxyapatite mechanically mixing are obtained composite powder, colds pressing then or cold isostatic compaction.Though this method technology is simple, the bonding force of CNTs and hydroxyapatite a little less than.The method that Sun Kangning etc. (patent CN 1958517A) have invented a kind of hydroxyapatite enveloped carbon nanometer tube is dispersed in CNTs in the ionic calcium soln earlier, drips phosphate anion solution then, and reaction in generates the CNTs/ hydroxyapatite complex powder.Zhao Naiqin etc. (patent CN 101156961A) adopt the vapour deposition reaction in to prepare carbon nanometer tube/hydroxyapatite complex powder.What above-mentioned technology obtained all is the CNTs/ hydroxyapatite complex powder, also needs follow-up further machine-shaping could be used as hard tissue substituting material.(2) pure titanium, titanium alloy, stainless steel, tantalum, vitallium etc. have excellent mechanical property, are that active ingredient deposits to metal or alloy surface formation activated coating with carbonate type hydroxyapatite, and its mechanical property and bone are complementary.The common method of preparation bioactive coating comprises plasma spraying, electrodip process, electrophoretic deposition and biomimetic method etc.Plasma spraying (Plasma-Spraying) is to prepare one of the most widely used technology of hydroxyapatite coating layer (patent CN 101250681A, 101250682A) at present both at home and abroad.This method can obtain comparatively suitable coating thickness and higher anchoring strength of coating (tensile strength 15~25MPa).Yet the higher part of hydroxyl phosphatic rock that causes of service temperature can resolve into solubility fusion phase, and the back coating that implants is seriously dissolved, thereby has reduced coating and metallic matrix, and the bonding strength between implant and the osseous tissue.Adopt the hydroxyapatite coating layer of plasma spraying preparation need carry out aftertreatment, to improve the degree of crystallinity (patent CN 1483480A, CN1254031A) of Bond Strength of Coating and hydroxyapatite.Electrochemical deposition method because of the temperature of reaction gentleness, simple to operate, controllability is strong, advantage such as with low cost causes investigator's extensive concern (patent CN 1587442A), but its disadvantage is that coating and basal body binding force are poor, and tension test finds that surface of fracture all occurs in the interface between coating and the substrate.There is the more weak shortcoming of bonding strength equally in electrophoretic deposition, must be through subsequent handlings such as Overheating Treatment (patent CN 1834306A).Biomimetic method is exactly the mineralising mechanism of simulating nature circle physiology phosphatic rock, deposits the method for phosphatic rock in being similar to tissue in the aqueous solution of envrionment conditions naturally.Advantages such as the bio-ceramic coating (patent CN 101249280A, 101244294A) that adopts biomimetic method to prepare has biocompatibility and synosteosis excellent property, temperature of reaction gentleness, technology is simple, easy to operate, expense is cheap, but sedimentation velocity is slower, coating and basal body binding force a little less than.
Summary of the invention
The object of the present invention is to provide a kind of method for preparing carbonate type hydroxylapatite/carbon nanotube compound coating.
Present method is carried out at normal temperatures and pressures, mainly comprises following two steps: (1) deposits to metal base surface with electrophoretic deposition with calcium carbonate powders or the powder and the carbon nanotube that contain lime carbonate, obtains calcium carbonate powders/carbon nanotube coating; (2) calcium carbonate powders/carbon nanotube coating changes into carbonate type hydroxylapatite/carbon nanotube compound coating after phosphate buffer solution is handled.
Concrete technical scheme is that a kind of preparation method of carbonate type hydroxylapatite/carbon nanotube composite coating material comprises the steps:
(1) in dispersion medium, adds: A. calcium carbonate powders or biological mineral matter powder calciferous, B. carbon nanotube; Sonic oscillation disperses 0.5~2hr, forms stable suspension, and lime carbonate concentration is 3~10g/L, and carbon nanotube concentration is 0.05~0.3g/L; And add acid, and example hydrochloric acid, sulfuric acid or nitric acid, making wherein, hydrogen ion concentration is 0.001~0.005M; Dispersion medium is nonconducting organic solvent, is preferably alcohols, more preferably dehydrated alcohol;
(2) be negative electrode with the metallic matrix, platinized platinum or graphite are anode, place the resulting suspension of step (1), and electrophoretic deposition 20~120s under 30~120 V/cm strength of electric field, agitation condition obtains lime carbonate/carbon nanotube compound coating;
(3) with step (2) gained lime carbonate/carbon nanotube compound coating, in 20~50 ℃ phosphate buffer solution, soaked 1~12 day, obtain carbonate type hydroxylapatite/carbon nanotube compound coating; Phosphate radical, dihydrogen phosphate and hydrogen phosphate are contained in described phosphate buffer solution pH=4.0 ~ 12, and total concn is 0.05~0.50 mol/L.
Described calcium carbonate powders is selected from calcite, aragonite, vaterite or unformed carbonic acid calcium; Biological mineral matter powder calciferous is selected from shell powder, coral powder, tortoise bone powder or fish-bone powder.The particle diameter of above-mentioned calcium carbonate powders or biological mineral matter powder calciferous is 0.02~10 μ m.
Described metallic matrix can be selected medical pure titanium, titanium alloy, stainless steel, tantalum or vitallium for use.The pretreatment technology of metallic matrix is before electrophoretic deposition: metallic matrix polishing back is cleaned, at H 3PO 4Soak 5~20min in the mixing solutions of/HF, the surface forms one deck oxide compound; Cleaning-drying again.Described H 3PO 4In the mixing solutions of/HF, H 3PO 4Concentration be 0.5 ~ 5.0 mol/L, the mass content of HF is 0.5 ~ 5%.
Described phosphoric acid buffer is prepared with soluble phosphate, and soluble phosphate is selected from one or more in SODIUM PHOSPHATE, MONOBASIC, Sodium phosphate dibasic, sodium phosphate, potassium primary phosphate, dipotassium hydrogen phosphate, potassiumphosphate, primary ammonium phosphate, ammonium phosphate or the Secondary ammonium phosphate.
Adopt the carbonate type hydroxylapatite/carbon nanotube compound coating of the present invention's preparation, detect through scanning electron microscope, coat-thickness is even; The carbonate type hydroxyapatite that generates is structure in the form of sheets, and interconnects.Show that through X-ray diffraction, Fourier infrared spectrum, X-ray energy spectrometer detection the phosphatic rock that obtains is B-type carbonate type hydroxyapatite, the Ca/P mol ratio is 1.3 ~ 1.67.The carbonate type hydroxyapatite in the coating and the content of carbon nanotube depend primarily on the mass ratio of lime carbonate and carbon nanotube in the suspension.
The present invention is a matrix with medical metal or alloy, adopt electrophoretic deposition-chemical immersion two-step approach to prepare carbonate type hydroxylapatite/carbon nanotube compound coating, the good biological activity of carbonate type hydroxyapatite not only can be utilized, the excellent mechanical performances of carbon nanotube and metallic matrix can also be given full play to.
Advantage of the present invention is as follows: the preparation of (1) carbonate type hydroxylapatite/carbon nanotube compound coating is all carried out under low-temperature atmosphere-pressure, do not need coating thermal treatment, so there is not thermal stresses in coating and basal body interface; (2) carbonate type hydroxylapatite/carbon nanotube compound coating has good external biological activity, just forms one deck class bone type phosphatic rock at coatingsurface after simulated body fluid soaks 1 day; (3) coat-thickness is even, with the substrate combinating strength height; (4) production technique is simple, and facility investment is few, is suitable for the implant of various complicated shapes.
Description of drawings
Fig. 1 is the XRD figure of embodiment 1 gained carbonate type hydroxylapatite/carbon nanotube compound coating
Fig. 2 is the SEM figure of embodiment 1 gained carbonate type hydroxylapatite/carbon nanotube compound coating.
Embodiment
Embodiment 1.
1. metallic matrix pre-treatment: with the medical pure titanium is matrix, cuts into the block that cross section is 15mm * 15mm, adopts abrasive paper for metallograph to be polished down to and observes no obvious cut under the opticmicroscope, and clean up with acetone and distilled water; Then at 1.0 mol/L H 3PO 4Soak 20 min in the mixing solutions of-1.5 wt% HF; Clean dry 24h under 60 ℃ in baking oven at last with distilled water.
2. the preparation of suspension: in the dehydrated alcohol of 250ml, add the unformed carbonic acid calcium powder of 1.225 g (particle diameter 4~5um) and 0.025 g carbon nanotube, ultra-sonic oscillation 1.0 h, form steady suspension, drip 1.0 mol/L hydrochloric acid, 0.5 ml before the electrophoresis.
3. electrophoretic deposition: with the medical pure titanium that obtains through step 1 is negative electrode, and graphite is anode, places above-mentioned suspension, and control strength of electric field is at 90 V/cm, and 60 s obtain lime carbonate/carbon nanotube coating at the mechanical stirring electrophoretic deposition.Take out coating, seasoning under the room temperature.
4. the configuration of phosphate buffer solution: SODIUM PHOSPHATE, MONOBASIC and Sodium phosphate dibasic are dissolved in the distilled water, are made into pH=7.4, phosphorus acid ion concentration is the phosphate buffer solution of 0.2 mol/L.
5. the preparation of compound coating:, under 37 ℃, in the phosphate buffer solution that obtains through step 4, soaked 3 days through lime carbonate/carbon nanotube coating that step 3 obtains, obtain carbonate type hydroxylapatite/carbon nanotube compound coating.Take out coating, dry under the room temperature.
6. test: the XRD of resulting carbonate type hydroxylapatite/carbon nanotube compound coating and SEM figure are respectively as depicted in figs. 1 and 2.
Forming a layer thickness between coating and the metallic matrix is the amorphous titanium oxide of about 2.0 μ m.The about 30 μ m of carbonate type hydroxylapatite/carbon nanotube compound coating thickness, Ca/P mol ratio 1.5.The mass content of carbon nanotube in compound coating is 2.0%.
The simulated body fluid immersion test shows that carbonate type hydroxylapatite/carbon nanotube has good external biological activity, soaks just to form one deck class bone type phosphatic rock after 1 day on the surface.
Embodiment 2.
1. metallic matrix pre-treatment: with medical titanium alloy Ti6Al4V is matrix, cuts into the block that cross section is 15mm * 15mm, adopts abrasive paper for metallograph to be polished down to and observes no obvious cut under the opticmicroscope, and clean up with acetone and distilled water; Then at 2.0 mol/L H 3PO 4Soak 5 min in the mixing solutions of-0.5 wt% HF; Clean dry 24h under 60 ℃ in baking oven at last with distilled water.
2. the preparation of suspension: in the ethanol solution of 250ml, add 2.25 g shell powders (particle diameter 0.1~2 μ m, calcium carbonate content is 98%) and 0.25 g carbon nanotube, ultra-sonic oscillation are disperseed 2.0 h, form steady suspension, drip 1.0 mol/L hydrochloric acid, 0.5 ml before the electrophoresis.
3. electrophoretic deposition: with the medical titanium alloy Ti6Al4V that obtains through step 1 is negative electrode, graphite is anode, place above-mentioned suspension, control strength of electric field is at 60 V/cm, and electrophoretic deposition 40 s obtain lime carbonate/carbon nanotube coating under mechanical stirring or magnetic agitation.Take out coating, seasoning under the room temperature.
4. phosphate buffer solution preparation: potassium primary phosphate and dipotassium hydrogen phosphate are dissolved in the distilled water, are made into pH=9.0, the phosphoric acid salt total concn is the phosphate buffer solution of 0.25 mol/L.
5. the preparation of compound coating:, under 50 ℃, in the phosphate buffer solution that obtains through step 4, soaked 1 day through lime carbonate/carbon nanotube coating that step 3 obtains, obtain carbonate type hydroxylapatite/carbon nanotube compound coating.Take out coating, dry under the room temperature.
6. test: forming a layer thickness between coating and the matrix is the amorphous titanium oxide of about 0.8 μ m.The about 20 μ m of carbonate type hydroxylapatite/carbon nanotube compound coating thickness, the Ca/P mol ratio is 1.3.The mass content of carbon nanotube in compound coating is 10.0%.
The simulated body fluid immersion test shows that carbonate type hydroxylapatite/carbon nanotube has good external biological activity, soaks just to form one deck class bone type phosphatic rock after 1 day on the surface.
The foregoing description is a preferred implementation of the present invention; but embodiments of the present invention are not restricted to the described embodiments; other any do not deviate from change, the modification done under spirit of the present invention and the principle, substitutes, combination, simplify; all should be the substitute mode of equivalence, be included within protection scope of the present invention.

Claims (10)

1. the preparation method of a carbonate type hydroxylapatite/carbon nanotube composite coating material is characterized in that, comprises the steps:
(1) in dispersion medium, add:
A. calcium carbonate powders or biological mineral matter powder calciferous,
B. carbon nanotube,
Sonic oscillation disperses 0.5~2hr, forms stable suspension, and lime carbonate concentration is 3~10g/L, and carbon nanotube concentration is 0.05~0.3g/L; And add acid, making wherein, hydrogen ion concentration is 0.001~0.005M; Described dispersion medium is nonconducting organic solvent;
(2) be negative electrode with the metallic matrix, platinized platinum or graphite are anode, place the resulting suspension of step (1), and electrophoretic deposition 20~120s under 30~120 V/cm strength of electric field, agitation condition obtains lime carbonate/carbon nanotube compound coating;
(3) with step (2) gained lime carbonate/carbon nanotube compound coating, in 20~50 ℃ phosphate buffer solution, soaked 1~12 day, obtain carbonate type hydroxylapatite/carbon nanotube compound coating; Phosphate radical, dihydrogen phosphate and hydrogen phosphate are contained in described phosphate buffer solution pH=4.0 ~ 12, and total concn is 0.05~0.50 mol/L.
2. the preparation method of the described carbonate type of claim 1 hydroxylapatite/carbon nanotube composite coating material is characterized in that, the acid described in the step (1) is hydrochloric acid, sulfuric acid or nitric acid.
3. the preparation method of the described carbonate type of claim 1 hydroxylapatite/carbon nanotube composite coating material is characterized in that, the dispersion medium described in the step (1) is an alcohols.
4. the preparation method of claim 1 or 3 described carbonate type hydroxylapatite/carbon nanotube composite coating materials is characterized in that described dispersion medium is a dehydrated alcohol.
5. the preparation method of the described carbonate type of claim 1 hydroxylapatite/carbon nanotube composite coating material is characterized in that, the calcium carbonate powders described in the step (1) is selected from calcite, aragonite, vaterite or unformed carbonic acid calcium; Biological mineral matter powder calciferous is selected from shell powder, coral powder, tortoise bone powder or fish-bone powder.
6. the preparation method of claim 1 or 5 described carbonate type hydroxylapatite/carbon nanotube composite coating materials is characterized in that, the particle diameter of described calcium carbonate powders or biological mineral matter powder calciferous is 0.02~10 μ m.
7. the preparation method of the described carbonate type of claim 1 hydroxylapatite/carbon nanotube composite coating material is characterized in that, described metallic matrix is medical pure titanium, titanium alloy, stainless steel, tantalum or vitallium.
8. the preparation method of the described carbonate type of claim 1 hydroxylapatite/carbon nanotube composite coating material is characterized in that, before electrophoretic deposition metallic matrix is carried out pre-treatment, technology comprises: metallic matrix polishing back is cleaned, at H 3PO 4Soak 5~20min in the mixing solutions of/HF, the surface forms one deck oxide compound; Cleaning-drying again.
9. the preparation method of the described carbonate type of claim 8 hydroxylapatite/carbon nanotube composite coating material is characterized in that described H 3PO 4In the mixing solutions of/HF, H 3PO 4Concentration be 0.5 ~ 5.0 mol/L, the mass content of HF is 0.5 ~ 5%.
10. the preparation method of the described carbonate type of claim 1 hydroxylapatite/carbon nanotube composite coating material, it is characterized in that, described phosphoric acid buffer is prepared with soluble phosphate, and soluble phosphate is selected from one or more in SODIUM PHOSPHATE, MONOBASIC, Sodium phosphate dibasic, sodium phosphate, potassium primary phosphate, dipotassium hydrogen phosphate, potassiumphosphate, primary ammonium phosphate, ammonium phosphate or the Secondary ammonium phosphate.
CN2010102876869A 2010-09-20 2010-09-20 Preparation method of carbonate hydroxyapatite/carbon nano tube composite coating material Expired - Fee Related CN101949046B (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN2010102876869A CN101949046B (en) 2010-09-20 2010-09-20 Preparation method of carbonate hydroxyapatite/carbon nano tube composite coating material

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN2010102876869A CN101949046B (en) 2010-09-20 2010-09-20 Preparation method of carbonate hydroxyapatite/carbon nano tube composite coating material

Publications (2)

Publication Number Publication Date
CN101949046A true CN101949046A (en) 2011-01-19
CN101949046B CN101949046B (en) 2012-07-04

Family

ID=43452668

Family Applications (1)

Application Number Title Priority Date Filing Date
CN2010102876869A Expired - Fee Related CN101949046B (en) 2010-09-20 2010-09-20 Preparation method of carbonate hydroxyapatite/carbon nano tube composite coating material

Country Status (1)

Country Link
CN (1) CN101949046B (en)

Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102260863A (en) * 2011-05-05 2011-11-30 陕西科技大学 Preparation method of silicon-containing hydroxyapatite coating of carbon/carbon composite material
CN108570697A (en) * 2018-04-26 2018-09-25 大同新成新材料股份有限公司 A kind of Brush Plating composite technology
CN108675281A (en) * 2018-03-30 2018-10-19 西南交通大学 It is a kind of to have electric conductivity and magnetic carbon nanotube based composites and preparation method thereof concurrently
US11433422B2 (en) 2018-12-17 2022-09-06 King Fahd University Of Petroleum And Minerals Polyethylene-CNT-hydroxyapatite coated materials
US11859080B2 (en) 2018-02-22 2024-01-02 Yeda Research And Development Co. Ltd. Hydroxyapatite based composites and films thereof

Citations (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN1772969A (en) * 2005-10-28 2006-05-17 厦门大学 Process for producing nan-hydroxyl kietyoite/carbon nano-pipe compound coating

Patent Citations (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN1772969A (en) * 2005-10-28 2006-05-17 厦门大学 Process for producing nan-hydroxyl kietyoite/carbon nano-pipe compound coating

Non-Patent Citations (1)

* Cited by examiner, † Cited by third party
Title
《Acta Biomaterialia》 20070823 Yaping Guo等 Fabrication of hydroxycarbonate apatite coatings with hierarchically porous structures 334-342页 1-10 第4卷, 2 *

Cited By (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102260863A (en) * 2011-05-05 2011-11-30 陕西科技大学 Preparation method of silicon-containing hydroxyapatite coating of carbon/carbon composite material
CN102260863B (en) * 2011-05-05 2013-05-01 陕西科技大学 Preparation method of silicon-containing hydroxyapatite coating of carbon/carbon composite material
US11859080B2 (en) 2018-02-22 2024-01-02 Yeda Research And Development Co. Ltd. Hydroxyapatite based composites and films thereof
CN108675281A (en) * 2018-03-30 2018-10-19 西南交通大学 It is a kind of to have electric conductivity and magnetic carbon nanotube based composites and preparation method thereof concurrently
CN108570697A (en) * 2018-04-26 2018-09-25 大同新成新材料股份有限公司 A kind of Brush Plating composite technology
US11433422B2 (en) 2018-12-17 2022-09-06 King Fahd University Of Petroleum And Minerals Polyethylene-CNT-hydroxyapatite coated materials

Also Published As

Publication number Publication date
CN101949046B (en) 2012-07-04

Similar Documents

Publication Publication Date Title
CN102146577B (en) Pure-titanium metal surface micro-arc oxidation treatment electrolyte and antimicrobial bioactive coating preparation method thereof
CN103272269B (en) Hydroxyapatite/chitosan composite coating and preparation method thereof
CN100423794C (en) Active bio piezoelectric ceramic coating layer and method of preparing said coating layer on titanium base body surface
CN107161969B (en) A kind of preparation method of nanometer hydroxyapatite/graphene oxide composite material
CN101949046B (en) Preparation method of carbonate hydroxyapatite/carbon nano tube composite coating material
CN101570874B (en) In situ formation method of gradient film containing TiO*/HA/CaCO*
CN105274603B (en) Composite modified coating of magnesium or Mg alloy surface carbon nanotubes and preparation method thereof
CN102747403B (en) Method of preparing magnesium-doped hydroxyapatite/titania active film on surface of medical titanium alloy
CN104947097B (en) A kind of preparation method of pure titanium surface phosphoric acid hydrogen calcium micro nanometer fiber conversion film
CN109680266A (en) A kind of bioactive ceramic coating and preparation method thereof preparing tantalum atom doping in titanium alloy surface
EP3331580B1 (en) Large 3d porous scaffolds made of active hydroxyapatite obtained by biomorphic transformation of natural structures and process for obtaining them
CN101991879A (en) Preparation method of carbon-carbon composite material/hydroxyapatite/polylactic acid biological material
Rajesh et al. Review on hydroxyapatite-carbon nanotube composites and some of their applications
Xiong et al. Polyvinyl alcohol/graphene oxide interlayer for enhancing adhesive performance of HA coating on C/C composites prepared by hydrothermal electrodeposition/hydrothermal treatment
CN106435690A (en) Micro-arc oxidation solution for titanium alloy strontium-containing biological coating and application of micro-arc oxidation solution
CN108379589A (en) A kind of preparation method of hydroxyapatite/graphene oxide composite material
CN110494098A (en) Electrolyte composition containing metal and silicon in plasma electrolysis oxidation process and the dental that the hydroxyapatite containing metal ion and silicon ion is coated with using its composition plant the manufacturing method of tooth
CN100553691C (en) The preparation method of composite coating material containing hydroxyapatite embedded in titanium oxide nanotube array
CN101491692A (en) Preparation method of calcium titanate nano-tube array biological coatings
CN104746120B (en) Carbon/carbon compound material containing bioactivity calcium phosphate coating and preparation method thereof
CN104987058A (en) Method for preparing hydroxyapatite-based composite bioceramic material through in-situ reaction
Cole et al. Hydrothermal synthesis of valve metal Ta-doped titanate nanofibers for potentially engineering bone tissue
Ling et al. Post-hydrothermal treatment of hydrothermal electrodeposited CaHPO4 on C/C composites in sodium silicate-containing solution at various temperatures
CN1299778C (en) Medical surface bioactive ceramic material and its prepn
CN101700411B (en) Method for preparing glass microfibre reinforcement nano-hydroxyapatite biological composite coating

Legal Events

Date Code Title Description
C06 Publication
PB01 Publication
C10 Entry into substantive examination
SE01 Entry into force of request for substantive examination
C14 Grant of patent or utility model
GR01 Patent grant
CF01 Termination of patent right due to non-payment of annual fee

Granted publication date: 20120704

Termination date: 20140920

EXPY Termination of patent right or utility model