CN108002729A - A kind of compound of corrosion inhibitor containing dimercaptothiodiazole of hydrotalcite intercalation chlorion probe modification and its application - Google Patents

Abstract

The present invention relates to corrosion inhibitor, the specifically a kind of compound of corrosion inhibitor containing dimercaptothiodiazole of hydrotalcite intercalation chlorion probe modification and its application.Assembled by chlorion probe modification and intercalation, in the chlorion trigger switch of the controllable corrosion inhibitor of class containing the dimercaptothiodiazole release of zinc-aluminum hydrotalcite intercalation, the compound of formation.Corrosion inhibitor compound using the present invention, can volume production, can accomplish to corrosive environment respond release and repair corrosion carbon steel, and there is long-term protective action, can effectively to carbon steel progress corrosion protection, have significant application value and vast market prospect.

Description

A kind of corrosion inhibitor containing dimercaptothiodiazole of hydrotalcite intercalation chlorion probe modification is compound Thing and its application

Technical field

The present invention relates to corrosion inhibitor, and be specifically a kind of hydrotalcite intercalation chlorion probe modification contains dimercaptothiodiazole Corrosion inhibitor compound and its application.

Background technology

Armored concrete is the material of main part of coastal and offshore engineering construction, under marine corrosion environment, by high concentration cl from The steel bar corrosion that son diffusion and infiltration trigger, is the very crux for causing concrete material deterioration and Deterioration of Structural Performance.Using Organic migration-type corrosion inhibitor (Migrating Corrosion Inhibitor, MCI) is as a kind of simple and direct, economic, efficient steel Muscle anti-corrosion material, is the prefered method for completely cutting off Chloride Attack.

Traditional corrosion inhibitor research and development thinking sticks to the isolating and protecting to rebar surface, and is not yet conceived to corruption The improvement of medium and adaptation to concrete body environment are lost, has seriously undermined the application stability of corrosion inhibitor and long-acting lasting Property, make the performance stream of high efficiency in empty talk.Function, green, structure effect, are three bases of the development of MCI basic research at this stage Essentiality, and realize the integrated and collaboration of reinforcing bar protection, chlorion improvement and environment adaptive functions, become " passive protection " to be " main It is dynamic to launch an attack ", the breach that will be crossed over as next step MCI from feature to intelligence.

Hydrotalcite-based compound (Layered Double Hydroxide, LDH) is by the assembling of functional molecular by linear Docking introduces the three-dimensional to link work at selected spots with that in entire areas, is the flagship material of new generation in Supramolecular Receptors series.LDH is light environmentally friendly, honest and clean Valency is easy to get, and collects the stability of layer structure, controllability, the adjustability of laminate spacing, the interlayer anion of laminate composition are handed over It is transsexual to possess the natural attribute as cell reservoirs and ion exchange platform in one, can carry out diversification structure of modification and Functions expanding, is widely used in stabilizing active intermediate, ion trapping, drug delivery and corrosion protection research.

The content of the invention

Present invention aims at provide a kind of corrosion inhibitor containing dimercaptothiodiazole of hydrotalcite intercalation chlorion probe modification to answer Compound and its application.

To achieve the above object, the technical solution adopted by the present invention is：

A kind of corrosion inhibitor compound of class containing dimercaptothiodiazole of hydrotalcite intercalation chlorion probe modification, is visited by chlorion Pin is modified and intercalation assembling, is touched in the chlorion of the controllable corrosion inhibitor of class containing the dimercaptothiodiazole release of zinc-aluminum hydrotalcite intercalation Hair switch, the compound of formation.

Further：The corrosion inhibitor of class containing the dimercaptothiodiazole [2- of chlorion probe modification is prepared by protonation techniques Sulfydryl -5- substituted-phenyls -1,3,4- thiadiazoles] corrosion inhibitor intercalation precursor, then it is embedded into zinc-aluminum hydrotalcite interlayer；Wherein, Dosage molar ratio between precursor and zinc-aluminum hydrotalcite is 6-8:1.

The precursor is that 4-(Metylamino)-benzoic acid is pressed [N⁺- H ... O] hydrogen bond formed mole metering than add thiophene containing sulfydryl (1-3 × 10 in diazole corrosion inhibitor aqueous solution^-3Mol/L), protonation titration is carried out using the HBr of 2.2 equivalents, prepares chlorion spy The corrosion inhibitor intercalation precursor of pin modification.

A kind of preparation method of zinc-aluminum hydrotalcite intercalation chlorion probe modification corrosion inhibitor compound：Carried out by following reactions

Zn(NO₃)₂·6H₂O+2NaOH=Zn (OH)₂↓+2NaNO₃+6H₂O (1)

Al(NO₃)₃·9H₂O+3NaOH=Al (OH)₃↓+3NaNO₃+9H₂O (2)

0.67Zn(OH)₂+0.33Al(OH)₃+mH₂O+0.165Na₂CO₃

=[Zn_0.67Al_0.33(OH)₂][(CO₃)_0.165·mH₂O]+0.33NaOH (3)

First, at room temperature by zinc nitrate and aluminum nitrate (mole ratio 2:1) mixing, obtains mixed solution A, will mix molten Liquid A is slowly dropped in sodium carbonate liquor B that (sodium carbonate and zinc nitrate molar equivalent are than 1:1), and using NaOH its pH is maintained to exist 10 ± 0.5, then suspension is crystallized in 65-70 DEG C of heating water bath 24-32h, obtains zinc-aluminum hydrotalcite；

Wherein, mixed solution A is slowly dropped in sodium carbonate liquor B, time for adding 1.5h, during which strong agitating solution B；Crystallized product is cleaned for several times by centrifuging with distilled water, and vacuum drying is simultaneously ground, stand-by.

The corrosion inhibitor intercalation precursor of chlorion probe modification is added in the zinc-aluminum hydrotalcite solution of preparation, is shelled by ultrasound From, condensing reflux, back-mixing precipitation is carried out, obtains the zinc-aluminum hydrotalcite compound of the corrosion inhibitor of intercalation chlorion probe modification.

The precursor is that 4-(Metylamino)-benzoic acid is pressed [N⁺- H ... O] hydrogen bond formed mole metering than add thiophene containing sulfydryl (1-3 × 10 in diazole corrosion inhibitor aqueous solution^-3Mol/L), protonation titration is carried out using the HBr of 2.2 equivalents, prepares chlorion spy The corrosion inhibitor intercalation presoma of pin modification.

A kind of application of the corrosion inhibitor compound of class containing dimercaptothiodiazole of hydrotalcite intercalation chlorion probe modification, the resistance Application of the rust agent compound in concrete mild steel material and its reinforcing bar product are carried out corrosion protection, repaired.

The seawater corrosion inhibitor compound is under concrete alkaline environment or corresponding alkaline condition to concrete medium carbon steel Material and its reinforcing bar product carry out the application in corrosion protection, reparation.

The concrete alkaline environment or corresponding alkaline condition refer to that pH value is 9.5-13.5 in seawater or sodium chloride medium.

Further, carbon steel material and its reinforcing bar product are immersed in the alkaline seawater solution for adding corrosion inhibitor compound It is preferably 0.1g/L or in medium, bath temperature is 15-45 DEG C, and the wherein amount of corrosion inhibitor compound is 0.05-0.2g/L.

Chlorion probe in corrosion inhibitor compound of the present invention is 4-(Metylamino)-benzoic acid, first protonates it using HBr, Then chelated with corrosion inhibitor [2- sulfydryl -5- substituted-phenyls -1,3,4- thiadiazoles], when there is chlorion, to methylamino benzene first Acid preferentially with chlorion reaction bonded, and by corrosion inhibitor dissociate discharge；Resistance rust when having the chlorion for causing corrosion to occur Agent, which can be just released, to come into force, and corrosion inhibitor, which can load, when no chlorion does not corrode is protected between neatly stone veneer in order to avoid sending out Raw degraded.

The beneficial effects of the invention are as follows：

Gained corrosion inhibitor compound of the invention is multi-functional in integral new corrosion inhibitor from function, green, structure effect is obtained Start with, use hydrotalcite (double-layered hydroxides) as carrier, the thiadiazole corrosion inhibitor molecule of chlorion probe modification is carried out Intercalation loads, it is therefore intended that the multi-functional hydrotalcite for carrying out Targeting delivery by chlorion identification and ion exchange and repairing is inserted The reinforcing steel bar corrosion inhibitor of layer thiadiazoles compound, to suppress under alkaline condition concrete medium carbon steel and its bar material product in sea Corrosion in water or sodium chloride medium；Specifically：

1. cost is low.The active ingredient of corrosion inhibitor compound of the present invention is hydrotalcite and thiadiazoles compound, the compound Synthesis material derives from a wealth of sources, is of low cost, and industrially a large amount of productions, and preparation method is simple, and yield is high, can carry out large quantities of Amount production, therefore integrated application cost is cheap.

2. environment Small side effects.Between corrosion inhibitor is supported on hydrotalcite bilayer by the present invention, there is preferable Environmental compatibility, On the one hand the loss and failure of corrosion inhibitor can be reduced, on the other hand, corrosion inhibitor active ingredient is exposed under strong light or in soil With it is degradable in organism be innocuous substance, load will not be brought to environment, meet the trend of green corrosion inhibitor development.

3. strong applicability.Corrosion inhibitor compound of the present invention it is applied widely, higher salinity, higher temperature and compared with Excellent anticorrosion performance is respectively provided with wide alkaline pH range.

4. high efficiency.This corrosion inhibitor compound yield is high, and dosage is few, can large area be added in concrete, and can have Effect suppresses carbon steel material or its destruction of corresponding reinforcing bar product in corrosive medium.

5. Targeting delivery and self-repairability.Corrosion inhibitor compound of the present invention is applied in corrosive medium, can be to aggressivity Ion chlorion carries out targets identification release, while carries out Corrosion Repair to Corrosion Reinforcement, prevents reinforcing bar from further corroding.

6. durability is good.Between corrosion inhibitor is supported on hydrotalcite bilayer by the present invention, have to erosion carbon dioxide (chlorine in environment Ion) response release ability, erosion carbon dioxide in medium (chlorion) can also be captured while discharging corrosion inhibitor, when can be long Between keep higher resistance to become rusty efficiency in alkaline environment.

Brief description of the drawings

Fig. 1 is the synthetic route of corrosion inhibitor compound provided in an embodiment of the present invention.

Embodiment

The present invention is further explained with reference to the accompanying drawings and examples.

Protective effect of the present invention based on LDH confinement spaces to object activity, laminate electric charge inhale the specificity of anion Attached effect, Inter layer exchange respond the release behavior to guest molecule, are assembled by building MCI in the supermolecular intercalation of LDH interlayers System (MCI/LDH), strengthens adaptability of the MCI to concrete body environment, while forms layer of the MCI releases to chlorion absorption Between exchange response mechanism, environment adaptation is carried out with this, chlorion is administered, the integration of reinforcing bar safeguard function.

The present invention is according to GB10124-88《Uniform Corrosion Method of Laboratory Immersion Test method》Carry out zero-G test, And carry out anticorrosion performance characterization using two kinds of electrochemical methods of electrochemical alternate impedance spectrum and potentiodynamic polarization.Although three kinds of methods Obtained resistance rust efficiency has different, and what it is mainly due to weight-loss method test is average corrosion rate, and electrochemical method is tested Be corrosion efficiency in transient process, but the general morphologictrend of various methods is consistent, it can be seen that in different salinity, resistance rust The compound is respectively provided with excellent anticorrosion performance under agent concentration, temperature, pH value condition.Used experimental test procedures come from text Offer：【1】W.Li,L.Hu,S.Zhang,B.Hou,Effects of two fungicides on the corrosion Resistance of copper in 3.5%NaCl solution under various conditions [J], Corros.Sci.2011,53:735-745 (weightless test, electrochemical impedance spectroscopy measuring resistance rust efficiency)【2】H.Tian, W.Li,B.Hou.Novel application of a hormone biosynthetic inhibitor for the corrosion resistance enhancement of copper in synthetic seawater[J] .Corros.Sci.2011,53:3435–3445.(dynamic potential polarization curve measuring resistance rust efficiency)

Embodiment

The preparation of the thiadiazoles corrosion inhibitor compound of hydrotalcite intercalation chlorion probe modification

The first step：Prepare the thiadiazoles precursor of chlorion probe modification.

4-(Metylamino)-benzoic acid is pressed into [N⁺- H ... O] mole metering that is formed of hydrogen bond than add 2- sulfydryl -5- substituted-phenyls - (2.4 × 10 in the polynary ether corrosion inhibitor aqueous solution of 1,3,4- thiadiazoles^-3Mol/L), protonation drop is carried out using the HBr of 2.2 equivalents It is fixed, prepare the corrosion inhibitor intercalation presoma of class containing dimercaptothiodiazole of chlorion probe modification.

Second step：Synthesis zinc-aluminum hydrotalcite reaction equation is that reaction is as follows：

Zn(NO₃)₂·6H₂O+2NaOH=Zn (OH)₂↓+2NaNO₃+6H₂O (1)

Al(NO₃)₃·9H₂O+3NaOH=Al (OH)₃↓+3NaNO₃+9H₂O (2)

0.67Zn(OH)₂+0.33Al(OH)₃+mH₂O+0.165Na₂CO₃

=[Zn_0.67Al_0.33(OH)₂][(CO₃)_0.165·mH₂O]+0.33NaOH (3)

First, by 14.85g Zn (NO₃)₂·6H₂O and 9.38g Al (NO₃)₃·9H₂O is dissolved into 100mL distilled water, Obtain mixing salt solution A；Again by 15.9g Na₂CO₃It is dissolved into 200mL distilled water, obtains solution B；It is afterwards that 8g NaOH is molten Solution obtains aqueous slkali C into 100mL distilled water.

Then, solution A is slowly dropped in B solution, while aqueous slkali C is added dropwise, maintain B solution pH=10 ± 0.5, phase Between strong agitating solution B.

Then, the suspension obtained after the completion of titration is put into 65 DEG C of water bath processing 24h, crystallized.

Finally, by product by centrifuging (4500rpm, 10min), and cleaned four times with distilled water, 70 DEG C of vacuum are dried Dry (24h) is simultaneously ground, and obtains zinc-aluminum hydrotalcite.

3rd step：Synthesize the thiadiazoles corrosion inhibitor compound of zinc-aluminum hydrotalcite intercalation chlorion probe modification.

The corrosion inhibitor intercalation of previously prepared chlorion probe modification is added in the zinc-aluminum hydrotalcite solution of above-mentioned preparation Precursor, the condensing reflux after ultrasound peels off 50min, carries out back-mixing precipitation about 30min, product centrifugation recycling, cleaning, drying is simultaneously Grinding, obtains the zinc-aluminum hydrotalcite compound (table 1) of the corrosion inhibitor of intercalation chlorion probe modification.

Table 1

	Corrosion inhibitor aqueous solution	Precursor：Hydrotalcite
			Embodiment 1	1mol/L	6:1
Embodiment 2	1.5mol/L	6.5:1
			Embodiment 3	2mol/L	7:1
Embodiment 4	2.5mol/L	7.5:1
			Embodiment 5	3mol/L	8:1

Application examples 1

Corrosion inhibitor compound is obtained to above-described embodiment 1 and is measured its resistance rust efficiency, is specially：

Condition：Experiment material is carbon steel (Fe：99.5%, Mn：0.4-0.5%, C：0.1-0.2%), effective corrosion inhibitor into It is divided into the thiadiazoles corrosion inhibitor compound of zinc-aluminum hydrotalcite intercalation chlorion probe modification, medium is 3.5% sodium chloride solution, is used 1L is measured, the effective content for adding corrosion inhibitor compound is 0.05g, and temperature is 25 DEG C, pH=11.5, and Immersion time is 180 days.

Resistance rust efficiency is obtained by experiment test according to the above-mentioned mensuration mode provided, is respectively weightlessness 91.4%, electrification Impedance spectrum 91.7% is learned, dynamic potential polarization curve 92.6%, shows compound for low, the efficient corrosion inhibitor of dosage.

Application examples 2

Corrosion inhibitor compound is obtained to above-described embodiment 2 and is measured its resistance rust efficiency, is specially：

Condition：Experiment material is carbon steel (Fe：99.5%, Mn：0.4-0.5%, C：0.1-0.2%), effective corrosion inhibitor into It is divided into the thiadiazoles corrosion inhibitor compound of zinc-aluminum hydrotalcite intercalation chlorion probe modification, medium is 3.5% sodium chloride solution, is used 1L is measured, the effective content for adding corrosion inhibitor compound is 0.1g, and temperature is 25 DEG C, pH=11.5, and Immersion time is 180 days.

Resistance rust efficiency is obtained by experiment test according to the above-mentioned mensuration mode provided, is respectively weightlessness 94.1%, electrification Impedance spectrum 95.2% is learned, dynamic potential polarization curve 96.0%, shows compound for low, the efficient corrosion inhibitor of dosage.

Application examples 3

Corrosion inhibitor compound is obtained to above-described embodiment 3 and is measured its resistance rust efficiency, is specially：

Condition：Experiment material is carbon steel (Fe：99.5%, Mn：0.4-0.5%, C：0.1-0.2%), effective corrosion inhibitor into It is divided into the thiadiazoles corrosion inhibitor compound of zinc-aluminum hydrotalcite intercalation chlorion probe modification, medium is 3.5% sodium chloride solution, is used 1L is measured, the effective content for adding corrosion inhibitor compound is 0.15g, and temperature is 25 DEG C, pH=11.5, and Immersion time is 180 days.

Resistance rust efficiency is obtained by experiment test according to the above-mentioned mensuration mode provided, is respectively weightlessness 94.3%, electrification Impedance spectrum 95.1% is learned, dynamic potential polarization curve 96.2%, shows compound for low, the efficient corrosion inhibitor of dosage.

Application examples 4

Corrosion inhibitor compound is obtained to above-described embodiment 4 and is measured its resistance rust efficiency, is specially：

Condition：Experiment material is carbon steel (Fe：99.5%, Mn：0.4-0.5%, C：0.1-0.2%), effective corrosion inhibitor into It is divided into the thiadiazoles corrosion inhibitor compound of zinc-aluminum hydrotalcite intercalation chlorion probe modification, medium is 3.5% sodium chloride solution, is used 1L is measured, the effective content for adding corrosion inhibitor compound is 0.2g, and temperature is 25 DEG C, pH=11.5, and Immersion time is 180 days.

Resistance rust efficiency is obtained by experiment test according to the above-mentioned mensuration mode provided, is respectively weightlessness 94.7%, electrification Impedance spectrum 95.6% is learned, dynamic potential polarization curve 96.8%, shows compound for low, the efficient corrosion inhibitor of dosage.

Application examples 5

Corrosion inhibitor compound is obtained to above-described embodiment 5 and is measured its resistance rust efficiency, is specially：

Condition：Experiment material is carbon steel (Fe：99.5%, Mn：0.4-0.5%, C：0.1-0.2%), effective corrosion inhibitor into It is divided into the thiadiazoles corrosion inhibitor compound of zinc-aluminum hydrotalcite intercalation chlorion probe modification, medium is 3.5% sodium chloride solution, is used 1L is measured, the effective content for adding corrosion inhibitor compound is 0.1g, and temperature is 15 DEG C, pH=11.5, and Immersion time is 180 days.

Resistance rust efficiency is obtained by experiment test according to the above-mentioned mensuration mode provided, is respectively weightlessness 93.9%, electrification Impedance spectrum 94.8% is learned, dynamic potential polarization curve 95.9%, shows compound for low, the efficient corrosion inhibitor of dosage.

Application examples 6

Corrosion inhibitor compound is obtained to above-described embodiment 5 and is measured its resistance rust efficiency, is specially：

Condition：Experiment material is carbon steel (Fe：99.5%, Mn：0.4-0.5%, C：0.1-0.2%), effective corrosion inhibitor into It is divided into the thiadiazoles corrosion inhibitor compound of zinc-aluminum hydrotalcite intercalation chlorion probe modification, medium is 3.5% sodium chloride solution, is used 1L is measured, the effective content for adding corrosion inhibitor compound is 0.1g, and temperature is 35 DEG C, pH=11.5, and Immersion time is 180 days.

Resistance rust efficiency is obtained by experiment test according to the above-mentioned mensuration mode provided, is respectively weightlessness 94.2%, electrification Impedance spectrum 94.9% is learned, dynamic potential polarization curve 96.1%, shows compound for low, the efficient corrosion inhibitor of dosage.

Application examples 7

Corrosion inhibitor compound is obtained to above-described embodiment 5 and is measured its resistance rust efficiency, is specially：

Condition：Experiment material is carbon steel (Fe：99.5%, Mn：0.4-0.5%, C：0.1-0.2%), effective corrosion inhibitor into It is divided into the thiadiazoles corrosion inhibitor compound of zinc-aluminum hydrotalcite intercalation chlorion probe modification, medium is 3.5% sodium chloride solution, is used 1L is measured, the effective content for adding corrosion inhibitor compound is 0.1g, and temperature is 55 DEG C, pH=11.5, and Immersion time is 180 days.

Resistance rust efficiency is obtained by experiment test according to the above-mentioned mensuration mode provided, is respectively weightlessness 93.8%, electrification Impedance spectrum 94.6% is learned, dynamic potential polarization curve 96.1%, shows compound for low, the efficient corrosion inhibitor of dosage.

Application examples 8

Corrosion inhibitor compound is obtained to above-described embodiment 3 and is measured its resistance rust efficiency, is specially：

Condition：Experiment material is carbon steel (Fe：99.5%, Mn：0.4-0.5%, C：0.1-0.2%), effective corrosion inhibitor into It is divided into the thiadiazoles corrosion inhibitor compound of zinc-aluminum hydrotalcite intercalation chlorion probe modification, medium is 3.5% sodium chloride solution, is used 1L is measured, the effective content for adding corrosion inhibitor compound is 0.1g, and temperature is 25 DEG C, pH=9.5, and Immersion time is 180 days.

Resistance rust efficiency is obtained by experiment test according to the above-mentioned mensuration mode provided, is respectively weightlessness 92.8%, electrification Impedance spectrum 93.7% is learned, dynamic potential polarization curve 94.5%, shows compound for low, the efficient corrosion inhibitor of dosage.

Application examples 9

Corrosion inhibitor compound is obtained to above-described embodiment 3 and is measured its resistance rust efficiency, is specially：

Condition：Experiment material is carbon steel (Fe：99.5%, Mn：0.4-0.5%, C：0.1-0.2%), effective corrosion inhibitor into It is divided into the thiadiazoles corrosion inhibitor compound of zinc-aluminum hydrotalcite intercalation chlorion probe modification, medium is 3.5% sodium chloride solution, is used 1L is measured, the effective content for adding corrosion inhibitor compound is 0.1g, and temperature is 25 DEG C, pH=10.5, and Immersion time is 180 days.

Resistance rust efficiency is obtained by experiment test according to the above-mentioned mensuration mode provided, is respectively weightlessness 93.6%, electrification Impedance spectrum 94.2% is learned, dynamic potential polarization curve 95.0%, shows compound for low, the efficient corrosion inhibitor of dosage.

Application examples 10

Corrosion inhibitor compound is obtained to above-described embodiment 3 and is measured its resistance rust efficiency, is specially：

Condition：Experiment material is carbon steel (Fe：99.5%, Mn：0.4-0.5%, C：0.1-0.2%), effective corrosion inhibitor into It is divided into the thiadiazoles corrosion inhibitor compound of zinc-aluminum hydrotalcite intercalation chlorion probe modification, medium is 3.5% sodium chloride solution, is used 1L is measured, the effective content for adding corrosion inhibitor compound is 0.1g, and temperature is 25 DEG C, pH=12.5, and Immersion time is 180 days.

Resistance rust efficiency is obtained by experiment test according to the above-mentioned mensuration mode provided, is respectively weightlessness 94.5%, electrification Impedance spectrum 96.1% is learned, dynamic potential polarization curve 97.2%, shows compound for low, the efficient corrosion inhibitor of dosage.

Application examples 11

Corrosion inhibitor compound is obtained to above-described embodiment 3 and is measured its resistance rust efficiency, is specially：

Condition：Experiment material is carbon steel (Fe：99.5%, Mn：0.4-0.5%, C：0.1-0.2%), effective corrosion inhibitor into It is divided into the thiadiazoles corrosion inhibitor compound of zinc-aluminum hydrotalcite intercalation chlorion probe modification, medium is 3.5% sodium chloride solution, is used 1L is measured, the effective content for adding corrosion inhibitor compound is 0.1g, and temperature is 25 DEG C, pH=13.5, and Immersion time is 180 days.

Resistance rust efficiency is obtained by experiment test according to the above-mentioned mensuration mode provided, is respectively weightlessness 95.2%, electrification Impedance spectrum 96.9% is learned, dynamic potential polarization curve 97.6%, shows compound for low, the efficient corrosion inhibitor of dosage.

Compound of the present invention is assembled by chlorion probe modification and intercalation, is contained zinc-aluminum hydrotalcite intercalation is controllable The chlorion trigger switch of dimercaptothiodiazole class corrosion inhibitor release, the compound of formation.Corrosion inhibitor compound using the present invention, Can volume production, can accomplish to corrosive environment respond release and repair corrosion carbon steel, and there is long-term protective action, Neng Gouyou Effect ground carries out corrosion protection to carbon steel, has significant application value and vast market prospect.

Claims (9)

1. A kind of 1. corrosion inhibitor compound of class containing dimercaptothiodiazole of hydrotalcite intercalation chlorion probe modification, it is characterised in that：It is logical Chlorion probe modification and intercalation assembling are crossed, in the controllable corrosion inhibitor of class containing the dimercaptothiodiazole release of zinc-aluminum hydrotalcite intercalation Chlorion trigger switch, the compound of formation.
2. 2. the corrosion inhibitor compound of class containing dimercaptothiodiazole of the chlorion probe modification as described in claim 1, it is characterised in that： The corrosion inhibitor intercalation precursor of class containing dimercaptothiodiazole of chlorion probe modification is prepared by protonation techniques, is then embedded into zinc Aluminum hydrotalcite interlayer；Wherein, the dosage molar ratio between precursor and zinc-aluminum hydrotalcite is 6-8:1.
3. 3. the corrosion inhibitor compound of class containing dimercaptothiodiazole of the hydrotalcite intercalation chlorion probe modification as described in claim 2, It is characterized in that：The precursor is that 4-(Metylamino)-benzoic acid is pressed [N⁺- H ... O] hydrogen bond formed mole metering than add contain mercapto (1-3 × 10 in base thiadiazoles corrosion inhibitor aqueous solution^-3Mol/L), carry out protonation titration using the HBr of 2.2 equivalents, prepare chlorine from The corrosion inhibitor intercalation presoma of sub- probe modification.
4. A kind of 4. system of zinc-aluminum hydrotalcite intercalation chlorion probe modification corrosion inhibitor composite as described in claim 1 Preparation Method, it is characterised in that：Carried out by following reactions

   Zn(NO₃)₂·6H₂O+2NaOH=Zn (OH)₂↓+2NaNO₃+6H₂O (1)

   Al(NO₃)₃·9H₂O+3NaOH=Al (OH)₃↓+3NaNO₃+9H₂O (2)

   0.67Zn(OH)₂+0.33Al(OH)₃+mH₂O+0.165Na₂CO₃

   =[Zn_0.67Al_0.33(OH)₂][(CO₃)_0.165·mH₂O]+0.33NaOH (3)

   First, at room temperature by zinc nitrate and aluminum nitrate (mole ratio 2:1) mixing, obtains mixed solution A, by mixed solution A It is slowly dropped in sodium carbonate liquor B that (sodium carbonate and zinc nitrate molar equivalent are than 1:1), and using NaOH maintain its pH 10 ± 0.5, then suspension is crystallized in 65-70 DEG C of heating water bath 24-32h, obtains zinc-aluminum hydrotalcite；

   The corrosion inhibitor intercalation precursor of chlorion probe modification is added in the zinc-aluminum hydrotalcite solution of preparation, peeled off by ultrasound, Condensing reflux, carries out back-mixing precipitation, obtains the zinc-aluminum hydrotalcite compound of the corrosion inhibitor of intercalation chlorion probe modification.
5. 5. the corrosion inhibitor compound of class containing dimercaptothiodiazole of the hydrotalcite intercalation chlorion probe modification as described in claim 4 Preparation method, it is characterised in that：The precursor is that 4-(Metylamino)-benzoic acid is pressed [N⁺- H ... O] hydrogen bond formed mole metering ratio Add (1-3 × 10 in the aqueous solution of corrosion inhibitor containing dimercaptothiodiazole^-3Mol/L), protonation titration is carried out using the HBr of 2.2 equivalents, Prepare the corrosion inhibitor intercalation presoma of chlorion probe modification.
6. A kind of 6. corrosion inhibitor compound of class containing dimercaptothiodiazole of the hydrotalcite intercalation chlorion probe modification described in claim 1 Application, it is characterised in that：The corrosion inhibitor compound is that corrosion is carried out to concrete mild steel material and its reinforcing bar product is anti- Application in shield, reparation.
7. 7. the corrosion inhibitor compound of class containing dimercaptothiodiazole of the hydrotalcite intercalation chlorion probe modification as described in claim 6 Using, it is characterised in that：The seawater corrosion inhibitor compound is under concrete alkaline environment or corresponding alkaline condition to coagulation Native mild steel material and its reinforcing bar product carry out the application in corrosion protection, reparation.
8. 8. the corrosion inhibitor compound of class containing dimercaptothiodiazole of the hydrotalcite intercalation chlorion probe modification as described in claim 7 Using, it is characterised in that：The concrete alkaline environment or corresponding alkaline condition refer to that pH value is in seawater or sodium chloride medium 9.5-13.5。
9. 9. the corrosion inhibitor compound of class containing dimercaptothiodiazole of the hydrotalcite intercalation chlorion probe modification as described in claim 8 Using, it is characterised in that：By carbon steel material and its reinforcing bar product be immersed in add corrosion inhibitor compound alkaline seawater solution or In medium, bath temperature is 15-45 DEG C, and the wherein amount of corrosion inhibitor compound is 0.05-0.2g/L.