CN205786253U - Three-port type metal pipe line outer wall corrosion detection device - Google Patents
Three-port type metal pipe line outer wall corrosion detection device Download PDFInfo
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- CN205786253U CN205786253U CN201620500525.6U CN201620500525U CN205786253U CN 205786253 U CN205786253 U CN 205786253U CN 201620500525 U CN201620500525 U CN 201620500525U CN 205786253 U CN205786253 U CN 205786253U
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Abstract
Three-port type metal pipe line outer wall corrosion detection device, instrument base is cylindrical structure, it is provided above interface cylinder at instrument base, the diameter of interface cylinder is less than the diameter of instrument base, at interface cylindrical inside, three through holes are set, it is respectively reference electrode interface, auxiliary electrode interface and inlet, reference electrode interface arranges reference electrode interface protection nut, auxiliary electrode interface arranges auxiliary electrode interface protection nut, inlet arranges inlet protection nut, in the lower section of interface cylinder, solution cavity is set, in the inside of instrument base, annular magnet is set, in instrument base inner periphery, ring washer is set, this test device reaction is sensitive, it is easy to carry, simple operation, metal pipe line outer wall application breakage can be judged rapidly under state under arms, damaged type and extent of corrosion.
Description
Technical field
This utility model relates to metal erosion measurement apparatus, particularly relates to three-port type metal pipe line outer wall
Corrosion testing device.
Background technology
Having investigation to show, the economic loss that the whole world causes because of corrosion every year reaches 6,000 hundred million to 12000
Hundred million yuan, account for the 2%-4% of various countries' gross national product.Especially for water conservancy or oil gas pipeline,
In its running, the safety of pipeline is significant.Affect metal pipe line Years Of Service because of
Have a lot, such as pipeline work pressure, Material Processing, damage from third-party, metal erosion, painting
The factors such as layer ruptures all can cause pipeline service life to shorten.Wherein, corrosion factor takes for pipeline
The influence degree of the labour time limit is the most serious.
The environment causing metal erosion varies, even if commaterial, in different corrosion
Under environment, its etch state there is also difference.For the Service Environment of metal pipe line, the corruption of pipe line steel
Erosion type can be divided into homogeneous corrosion, spot corrosion, crevice corrosion, erosion corrosion and stress corrosion etc..?
During the military service of pipeline, corrosion product is formed and can be deposited on the surface of pipe line steel, affects pipeline
The further corrosion process of steel.The corrosion mechanism of pipe line steel is the composition by its corrosion product and structure
Being determined, the most so, the character of corrosion scales also determines the change of corrosion rate.
Because of the seriousness of feed-line corrosion failure consequence, and the complexity of its corrosion process, right
Metal pipe line etch state in-service detects easily and evaluates accurately, seems outstanding
For important.In terms of Corrosion monitoring and evaluation, electrochemical method has the advantage of uniqueness.To be detected
Typically it is covered with protective coating with the metal pipe line outer wall evaluated, is metal/coating system.Along with military service
The prolongation of time, protective coating degradation failure, pipeline steel surface has corrosion product to generate, at this moment becomes
For metal/rusty scale/coating system.Under coating, metal erosion is mainly electrochemical corrosion, protective coating
In failure procedure, along with a series of electrochemical change.Changed by detection electrochemical signals,
The multidate information of metal erosion and coating protection performance change can be obtained, it is achieved corrosion resistance coating with
Quantitative and the semi-quantitative assessment of pipe line steel corrosion process.At present, domestic to metal pipe line corrosion resisting property
Appraisal procedure be only limitted to the deformation to pipeline, be cladded with coating use state monitoring, or use
Outer wall has occurred nondestructive inspection means the pipeline of breakage carry out destroying position and damaged degree is detected,
In combination with parameters such as pipeline surface morphology change, between the corrosion condition that metal pipe line is overall is made
Connect evaluation, it is impossible to the etch state under metal pipe line under arms state is carried out quantitative assessment.Based on
Electrochemical measurement principle, carries out on-line quick detection and evaluation to the etch state of metal pipe line outer wall
And it is applicable to the electrochemical measurement test device and evaluation methodology of all size metal pipe line outer wall,
Domestic used.
Utility model content
This utility model overcomes shortcoming of the prior art, it is provided that three-port type metal pipe line outer wall
Corrosion testing device.
In order to solve above-mentioned technical problem, this utility model is achieved through the following technical solutions:
Three-port type metal pipe line outer wall corrosion detection device, instrument base is cylindrical structure, at instrument
Device base be provided above interface cylinder, the diameter of interface cylinder less than the diameter of instrument base,
Interface cylindrical inside arranges three through holes, respectively reference electrode interface, auxiliary electrode interface and enter
Liquid mouth, arranges reference electrode interface protection nut, at auxiliary electrode interface on reference electrode interface
On auxiliary electrode interface protection nut is set, inlet is arranged inlet protection nut, connecing
The lower section of mouth cylinder arranges solution cavity, arranges annular magnet in the inside of instrument base, at instrument
Base inner periphery arranges ring washer.
In technique scheme, the height of wherein said instrument base is 2-5cm.
In technique scheme, the height of wherein said solution cavity is 4-8cm.
In technique scheme, wherein said reference electrode interface, auxiliary electrode interface and entering
Position is equilateral triangle three summits that liquid mouth is distributed on interface cylindrical plane.
When during use, experimental provision of the present utility model is tested:
Step 1: by whole test device by the annular magnet absorption within instrument base at experiment gold
Metal surface;
Step 2: by reference electrode through reference electrode interface protection nut, inserts reference electrode interface,
Through interface cylinder, lower end is placed in solution inside cavity, by auxiliary electrode through auxiliary electrode interface
Protection nut, inserts auxiliary electrode interface, and through interface cylinder, lower end is placed in solution inside cavity;
Step 3: pour experiment buffer solution into by inlet, makes solution cavity be full of buffer solution,
The end portion of reference electrode and shield electrode is immersed in buffer solution, and inlet is protected nut plug
Enter in inlet, prevent buffer solution from flowing out;
Step 4: electrochemical appliance is connected on reference electrode and auxiliary electrode, carries out experiment test.
In technique scheme, in step 2, wherein said reference electrode connects with reference electrode
Keep sealing between mouthful protection nut, described auxiliary electrode and auxiliary electrode interface protection nut it
Between keep seal.
Compared with prior art, the beneficial effects of the utility model are: this test device makes simple,
It is quick on the draw, it is simple to carry, simple operation;Evaluation methodology is simply accurate, and data resolvability is high,
Can judge rapidly under state under arms metal pipe line outer wall application breakage, damaged type,
Extent of corrosion, and be applicable to the etch state of all size metal pipe line outer wall application is carried out quickly
Detection and evaluation.
Accompanying drawing explanation
Fig. 1 is that this utility model tests device side-looking structural representation.
Fig. 2 is that this utility model tests bottom of device planar structure schematic diagram.
Fig. 3 is that this utility model tests device overall structure schematic diagram.
Fig. 4 is that top layer is coated with the X65 pipe line steel of epoxy resin and soaks 10-50 in simulated seawater
It electrochemical impedance spectroscopy.
Fig. 5 is that top layer is coated with the X65 pipe line steel of epoxy resin and soaks the 10th day in simulated seawater
Erosion profile.
Fig. 6 is that top layer is coated with the X65 pipe line steel of epoxy resin and soaks the 20th day in simulated seawater
Erosion profile.
Fig. 7 is that top layer is coated with the X65 pipe line steel of epoxy resin and soaks in simulated seawater
The electrochemical impedance spectroscopy of 140-200 days.
Fig. 8 is that top layer is coated with the X65 pipe line steel of epoxy resin and soaks the 140th in simulated seawater
It erosion profile.
Fig. 9 is that top layer is coated with the X65 pipe line steel of epoxy resin and soaks the 200th in simulated seawater
It erosion profile.
Wherein 1 is reference electrode interface, and 2 is auxiliary electrode interface, and 3 is inlet, and 4 is reference
Electrode interface protection nut, 5 is auxiliary electrode interface protection nut, and 6 protect nut for inlet,
7 instrument bases, 8 is annular magnet, and 9 is ring washer, and 10 is solution cavity, and 11 is interface circle
Post.
Detailed description of the invention
With specific embodiment, this utility model is described in further detail below in conjunction with the accompanying drawings:
Three-port type metal pipe line outer wall corrosion detection device, instrument base is cylindrical structure, at instrument
Device base be provided above interface cylinder, the diameter of interface cylinder less than the diameter of instrument base,
Interface cylindrical inside arranges three through holes, respectively reference electrode interface, auxiliary electrode interface and enter
Liquid mouth, arranges reference electrode interface protection nut, at auxiliary electrode interface on reference electrode interface
On auxiliary electrode interface protection nut is set, inlet is arranged inlet protection nut, connecing
The lower section of mouth cylinder arranges solution cavity, arranges annular magnet in the inside of instrument base, at instrument
Base inner periphery arranges ring washer.
In technique scheme, the height of wherein said instrument base is 2-5cm.
In technique scheme, the height of wherein said solution cavity is 4-8cm.
In technique scheme, wherein said reference electrode interface, auxiliary electrode interface and entering
Position is equilateral triangle three summits that liquid mouth is distributed on interface cylindrical plane.
When during use, experimental provision of the present utility model is tested:
Step 1: by whole test device by the annular magnet absorption within instrument base at experiment gold
Metal surface;
Step 2: by reference electrode through reference electrode interface protection nut, inserts reference electrode interface,
Through interface cylinder, lower end is placed in solution inside cavity, by auxiliary electrode through auxiliary electrode interface
Protection nut, inserts auxiliary electrode interface, and through interface cylinder, lower end is placed in solution inside cavity;
Step 3: pour experiment buffer solution into by inlet, makes solution cavity be full of buffer solution,
The end portion of reference electrode and shield electrode is immersed in buffer solution, and inlet is protected nut plug
Enter in inlet, prevent buffer solution from flowing out;
Step 4: electrochemical appliance is connected on reference electrode and auxiliary electrode, carries out experiment test.
In technique scheme, in step 2, wherein said reference electrode connects with reference electrode
Keep sealing between mouthful protection nut, described auxiliary electrode and auxiliary electrode interface protection nut it
Between keep seal.
During use, test device is placed in metal pipe line top to be measured, by Magnet make test device with
Metal pipe line is fixed and is in close contact, and buffer solution injects inlet and is full of solution cavity, make to treat
Test specimens connects with reference electrode and auxiliary electrode, and utilization carries out electrochemical impedance spectral technology and surveys
Examination.
Embodiment 1:
AutoLab 302N electrochemical workstation and the test device developed is utilized to carry out electrochemistry resistance
Anti-test, test sample is X65 pipe line steel, and sample outer wall uniformly coats epoxy coating, surveys
Examination solution is 3.5wt% concentration sodium-chloride water solution (simulated seawater), test temperature 25 DEG C, test
Cycle is 50 days, and result is as shown in Figure 4.
Soak time was until the 10th day, and measured impedance complex number plane figure is still in single semi arch
Shape, the radius of capacitive reactance arc can be inferred that surveyed inner wall surface has higher coating electricity
Resistance (50M Ω * cm2), shows that its corrosion resistance is good.In order to be further characterized by the accurate of experimental data
Property, sample is positioned over amplifying observation under the full depth-of-field microscope of Keyemce VHX-2000, finds coating
Surface is the most smooth, does not has disrepair phenomenon to occur, as shown in Figure 5.
When soak time reaches 20 days, measured impedance complex number plane figure starts to present double volume and resists
The feature of arc, and the radius of capacitive reactance arc is obviously reduced.Illustrate that part solution can be through being coated with
Layer has penetrated into metal base surface, and the corrosion resistant protective of coating can gradually lose efficacy.In order to enter one
The accuracy of step validating experiment data, is positioned over the full depth-of-field microscope of Keyemce VHX-2000 by sample
Lower amplifying observation, finds that coating surface has the breakage of little area, and regional area metallic matrix is the most sudden and the most violent
Dew, is shown in Fig. 6.
Embodiment 2:
AutoLab 302N electrochemical workstation and the test device developed is utilized to carry out electrochemistry resistance
Anti-test, test sample is X65 pipe line steel, and sample outer wall uniformly coats epoxy coating, surveys
Examination solution is 3.5wt% concentration sodium-chloride water solution (simulated seawater), test temperature 25 DEG C, test
Time is respectively soaks the 140th day and the 200th day, and result is as shown in Figure 7.
When soaking the 200th day, measured impedance complex number plane figure starts to present the anti-arc+expansion of double volume
Dissipating three time constant features of impedance, capacitive reactance arc radius reduces substantially (30K compared with soaking early stage
Ω * cm2), illustrate that solution has been transmitted through coating and arrives metal base surface and corrode, coating
Corrosion resistant protective can lose efficacy.In order to be further characterized by the accuracy of experimental data, by sample
It is positioned over Keyemce VHX-2000 full depth-of-field microscope amplifying observation, finds that coating surface exists bigger
The bronzing corrosion product of area, there is serious breakage in coating.Fig. 8, Fig. 9 are respectively immersion
Specimen surface pattern after 140 days and the 200th day.
Above this utility model is described in detail, but described content is the most of the present utility model
Preferred embodiment, it is impossible to be considered for limiting practical range of the present utility model.Fan Yiben is practical
Impartial change that novel application range is made and improvement etc., all should still belong to of the present utility model specially
Within profit covering scope.
Claims (4)
1. three-port type metal pipe line outer wall corrosion detection device, it is characterised in that: instrument base is circle
Column structure, is provided above interface cylinder at instrument base, and the diameter of interface cylinder is less than instrument
The diameter of base, arranges three through holes at interface cylindrical inside, respectively reference electrode interface, auxiliary
Help electrode interface and inlet, reference electrode interface arrange reference electrode interface protection nut,
Auxiliary electrode interface arranges auxiliary electrode interface protection nut, inlet arranges inlet
Protection nut, arranges solution cavity in the lower section of interface cylinder, arranges ring in the inside of instrument base
Shape Magnet, arranges ring washer in instrument base inner periphery.
2. three-port type metal pipe line outer wall corrosion detection device as claimed in claim 1, its feature
It is: the height of described instrument base is 2-5cm.
3. three-port type metal pipe line outer wall corrosion detection device as claimed in claim 1, its feature
It is: the height of described solution cavity is 4-8cm.
4. three-port type metal pipe line outer wall corrosion detection device as claimed in claim 1, its feature
It is: described reference electrode interface, auxiliary electrode interface and inlet are on interface cylindrical plane
Position is equilateral triangle three summits of distribution.
Priority Applications (1)
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CN201620500525.6U CN205786253U (en) | 2016-05-26 | 2016-05-26 | Three-port type metal pipe line outer wall corrosion detection device |
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CN201620500525.6U CN205786253U (en) | 2016-05-26 | 2016-05-26 | Three-port type metal pipe line outer wall corrosion detection device |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105866019A (en) * | 2016-05-26 | 2016-08-17 | 天津大学 | Three-hole metal pipeline outer wall corrosion detection device |
CN109856041A (en) * | 2017-11-30 | 2019-06-07 | 株式会社日立制作所 | For evaluating the electrolytic cell of electrochemical corrosion |
-
2016
- 2016-05-26 CN CN201620500525.6U patent/CN205786253U/en not_active Expired - Fee Related
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105866019A (en) * | 2016-05-26 | 2016-08-17 | 天津大学 | Three-hole metal pipeline outer wall corrosion detection device |
CN109856041A (en) * | 2017-11-30 | 2019-06-07 | 株式会社日立制作所 | For evaluating the electrolytic cell of electrochemical corrosion |
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CF01 | Termination of patent right due to non-payment of annual fee |