CN106011804A - Anti-corrosion chemical plating liquid and application thereof to drilling drill rod - Google Patents

Abstract

The invention discloses anti-corrosion chemical plating liquid and application thereof to a drilling drill rod. The anti-corrosion chemical plating liquid is prepared from the following raw materials in parts by weight: 65 to 75 parts of nickel sulfate, 15 to 25 parts of nano silicon dioxide, 10 to 20 parts of a complexing agent disodium EDTA (Ethylene Diamine Tetraacetate), 3 to 5 parts of disodium hydrogen phosphate, 6 to 8 parts of sodium dihydrogen phosphate, 3 to 5 parts of copper sulfate, 2 to 4 parts of boric acid, 0.2 to 0.4 part of thiourea, 900 to 1100 parts of water and 7 to 9 parts of ferrous sulfate and magnesium sulfate, wherein the weight part ratio of the ferrous sulfate to the magnesium sulfate is (6 to 8) to 1. The chemical plating liquid provided by the invention has stable properties and the anti-corrosion performance of the drilling rod can be remarkably improved after treatment on the drilling drill rod; the technical effect is related to the weight part ratio of the ferrous sulfate to the magnesium sulfate in the raw materials; when the weight part ratio of the ferrous sulfate to the magnesium sulfate is (6 to 8) to 1, the anti-corrosion effect on the drill rod is optimal.

Description

A kind of anticorrosion chemical plating fluid and the application in creeping into drilling rod thereof

Technical field

The invention belongs to creep into drilling rod field, be specifically related to a kind of anticorrosion chemical plating fluid and the application in creeping into drilling rod thereof.

Background technology

In drilling process, the seriously corroded of drilling tool, and along with drilling well well depth develops in depth, temperature, pressure, well layer ground The various factors such as the change of matter structure make the corrosion failure of drilling tool be on the rise.The external technology Experience in Development through decades shows, The drilling tool loss often creeping into lm has controlled in 1～1.5kg scope, and the drilling tool loss of lm is the most often crept into up to by China at present 4kg, it can be seen that, the twice that the drilling tool loss of China is external is many.This drilling tool year loss amount according to the geology bar of each wellblock Part, mud composition and the difference of the selection of material, the loss that corrosion causes accounts for therein 20%～50%, and the annual drilling well of China presses 1500 ×10⁴M counts, corrosion loss the most up to 0.9～2.5 hundred million yuan.It addition, the corrosion of drilling rod even can cause drilling rod to rupture suddenly, from And cause down-hole accident etc..The generation of these security incidents can cause severe social influence, it is difficult to weighs by economic indicator.

The means of defence used drilling tool both at home and abroad mainly has three kinds, and one of which is chemical plating fluid protection method.

Summary of the invention

It is an object of the invention to provide a kind of anticorrosion chemical plating fluid and the application in creeping into drilling rod thereof.

The above-mentioned purpose of the present invention is achieved by techniques below scheme:

A kind of anticorrosion chemical plating fluid, is prepared from by the raw material of following weight portion: nickel sulfate, 65～75 parts；Nano-silica SiClx, 15～25 parts；Chelating agent EDETATE SODIUM, 10～20 parts；Disodium hydrogen phosphate, 3～5 parts；Sodium dihydrogen phosphate, 6～8 parts； Copper sulfate, 3～5 parts；Boric acid, 2～4 parts；Thiourea, 0.2～0.4 part；Water, 900～1100 parts；Ferrous sulfate and magnesium sulfate are altogether 7～9 parts, the weight ratio of ferrous sulfate and magnesium sulfate is 6～8:1.

Further, described anticorrosion chemical plating fluid is prepared from by the raw material of following weight portion: nickel sulfate, 70 parts；Receive Rice silicon dioxide, 20 parts；Chelating agent EDETATE SODIUM, 15 parts；Disodium hydrogen phosphate, 4 parts；Sodium dihydrogen phosphate, 7 parts；Sulfur Acid copper, 4 parts；Boric acid, 3 parts；Thiourea, 0.3 part；Water, 1000 parts；Totally 8 parts of ferrous sulfate and magnesium sulfate, ferrous sulfate It is 7:1 with the weight ratio of magnesium sulfate.

Further, described anticorrosion chemical plating fluid is prepared from by the raw material of following weight portion: nickel sulfate, 65 parts；Receive Rice silicon dioxide, 15 parts；Chelating agent EDETATE SODIUM, 10 parts；Disodium hydrogen phosphate, 3 parts；Sodium dihydrogen phosphate, 6 parts；Sulfur Acid copper, 3 parts；Boric acid, 2 parts；Thiourea, 0.2 part；Water, 900 parts；Totally 7 parts of ferrous sulfate and magnesium sulfate, ferrous sulfate It is 6:1 with the weight ratio of magnesium sulfate.

Further, described anticorrosion chemical plating fluid is prepared from by the raw material of following weight portion: nickel sulfate, 75 parts；Receive Rice silicon dioxide, 25 parts；Chelating agent EDETATE SODIUM, 20 parts；Disodium hydrogen phosphate, 5 parts；Sodium dihydrogen phosphate, 8 parts；Sulfur Acid copper, 5 parts；Boric acid, 4 parts；Thiourea, 0.4 part；Water, 1100 parts；Totally 9 parts of ferrous sulfate and magnesium sulfate, ferrous sulfate It is 8:1 with the weight ratio of magnesium sulfate.

The compound method of above-mentioned anticorrosion chemical plating fluid, comprises the steps:

Step S1, after water dissolution disodium hydrogen phosphate and sodium dihydrogen phosphate, adds boric acid, thiourea, stirring and dissolving, adds and receive Rice silicon dioxide, stirs；

Step S2, adds chelating agent EDETATE SODIUM, ferrous sulfate and magnesium sulfate, stirring and dissolving in above-mentioned solution；

Step S3, is eventually adding nickel sulfate and copper sulfate, stirring and dissolving.

Utilize above-mentioned anticorrosion chemical plating fluid to creeping into the method that drilling rod protects, comprise the steps:

Step S1, pretreatment: successively drilling rod is washed, alkali cleaning, washing, pickling, washing；

Step S2, chemical plating fluid processes: after pretreatment, soaking plating with chemical plating fluid, plating temperature 70～80 DEG C, during plating Between be 1～3 hour；

Step S3, post processing: after chemical plating fluid processes, again wash.

Advantages of the present invention:

The chemical plating fluid stable in properties that the present invention provides, to significantly improving the corrosion resistance creeping into drilling rod after creeping into drilling rod process Can, this technique effect is relevant with the weight ratio of ferrous sulfate in raw material and magnesium sulfate, ferrous sulfate and the weight of magnesium sulfate When the ratio of part is 6～8:1, optimum to the antiseptic effect of drilling rod.

Detailed description of the invention

Further illustrate the essentiality content of the present invention below in conjunction with embodiment, but do not limit scope with this.To the greatest extent The present invention is explained in detail by pipe with reference to preferred embodiment, it will be understood by those within the art that, can be to the present invention Technical scheme modify or equivalent, without deviating from the spirit and scope of technical solution of the present invention.

Embodiment 1: the preparation of chemical plating fluid and to drilling rod plating anti-corrosion method

Parts by weight of raw materials compares:

Nickel sulfate, 70 parts；Nano silicon, 20 parts；Chelating agent EDETATE SODIUM, 15 parts；Disodium hydrogen phosphate, 4 parts； Sodium dihydrogen phosphate, 7 parts；Copper sulfate, 4 parts；Boric acid, 3 parts；Thiourea, 0.3 part；Water, 1000 parts；Ferrous sulfate and sulfur Totally 8 parts of magnesium of acid, the weight ratio of ferrous sulfate and magnesium sulfate is 7:1.

Compound method:

Step S1, after water dissolution disodium hydrogen phosphate and sodium dihydrogen phosphate, adds boric acid, thiourea, stirring and dissolving, adds and receive Rice silicon dioxide, stirs；

Step S2, adds chelating agent EDETATE SODIUM, ferrous sulfate and magnesium sulfate, stirring and dissolving in above-mentioned solution；

Step S3, is eventually adding nickel sulfate and copper sulfate, stirring and dissolving.

To creeping into the method that drilling rod protects:

Step S1, pretreatment: successively drilling rod is washed, alkali cleaning, washing, pickling, washing；

Step S2, chemical plating fluid processes: after pretreatment, soaking plating, temperature 75 DEG C with chemical plating fluid, the time is 2 hours；

Step S3, post processing: after chemical plating fluid processes, again wash.

Embodiment 2: the preparation of chemical plating fluid and to drilling rod plating anti-corrosion method

Parts by weight of raw materials compares:

Nickel sulfate, 65 parts；Nano silicon, 15 parts；Chelating agent EDETATE SODIUM, 10 parts；Disodium hydrogen phosphate, 3 parts； Sodium dihydrogen phosphate, 6 parts；Copper sulfate, 3 parts；Boric acid, 2 parts；Thiourea, 0.2 part；Water, 900 parts；Ferrous sulfate and sulphuric acid Totally 7 parts of magnesium, the weight ratio of ferrous sulfate and magnesium sulfate is 6:1.

Compound method:

Step S1, after water dissolution disodium hydrogen phosphate and sodium dihydrogen phosphate, adds boric acid, thiourea, stirring and dissolving, adds and receive Rice silicon dioxide, stirs；

Step S2, adds chelating agent EDETATE SODIUM, ferrous sulfate and magnesium sulfate, stirring and dissolving in above-mentioned solution；

Step S3, is eventually adding nickel sulfate and copper sulfate, stirring and dissolving.

To creeping into the method that drilling rod protects:

Step S1, pretreatment: successively drilling rod is washed, alkali cleaning, washing, pickling, washing；

Step S2, chemical plating fluid processes: after pretreatment, soaking plating, temperature 75 DEG C with chemical plating fluid, the time is 2 hours；

Step S3, post processing: after chemical plating fluid processes, again wash.

Embodiment 3: the preparation of chemical plating fluid and to drilling rod plating anti-corrosion method

Parts by weight of raw materials compares:

Nickel sulfate, 75 parts；Nano silicon, 25 parts；Chelating agent EDETATE SODIUM, 20 parts；Disodium hydrogen phosphate, 5 parts； Sodium dihydrogen phosphate, 8 parts；Copper sulfate, 5 parts；Boric acid, 4 parts；Thiourea, 0.4 part；Water, 1100 parts；Ferrous sulfate and sulfur Totally 9 parts of magnesium of acid, the weight ratio of ferrous sulfate and magnesium sulfate is 8:1.

Compound method:

Step S1, after water dissolution disodium hydrogen phosphate and sodium dihydrogen phosphate, adds boric acid, thiourea, stirring and dissolving, adds and receive Rice silicon dioxide, stirs；

Step S2, adds chelating agent EDETATE SODIUM, ferrous sulfate and magnesium sulfate, stirring and dissolving in above-mentioned solution；

Step S3, is eventually adding nickel sulfate and copper sulfate, stirring and dissolving.

To creeping into the method that drilling rod protects:

Step S1, pretreatment: successively drilling rod is washed, alkali cleaning, washing, pickling, washing；

Step S2, chemical plating fluid processes: after pretreatment, soaking plating, temperature 75 DEG C with chemical plating fluid, the time is 2 hours；

Step S3, post processing: after chemical plating fluid processes, again wash.

Embodiment 4: the preparation of chemical plating fluid and to drilling rod plating anti-corrosion method

Parts by weight of raw materials compares:

Nickel sulfate, 70 parts；Nano silicon, 20 parts；Chelating agent EDETATE SODIUM, 15 parts；Disodium hydrogen phosphate, 4 parts； Sodium dihydrogen phosphate, 7 parts；Copper sulfate, 4 parts；Boric acid, 3 parts；Thiourea, 0.3 part；Water, 1000 parts；Ferrous sulfate and sulfur Totally 8 parts of magnesium of acid, the weight ratio of ferrous sulfate and magnesium sulfate is 6:1.

Compound method:

Step S1, after water dissolution disodium hydrogen phosphate and sodium dihydrogen phosphate, adds boric acid, thiourea, stirring and dissolving, adds and receive Rice silicon dioxide, stirs；

Step S2, adds chelating agent EDETATE SODIUM, ferrous sulfate and magnesium sulfate, stirring and dissolving in above-mentioned solution；

Step S3, is eventually adding nickel sulfate and copper sulfate, stirring and dissolving.

To creeping into the method that drilling rod protects:

Step S1, pretreatment: successively drilling rod is washed, alkali cleaning, washing, pickling, washing；

Step S2, chemical plating fluid processes: after pretreatment, soaking plating, temperature 75 DEG C with chemical plating fluid, the time is 2 hours；

Step S3, post processing: after chemical plating fluid processes, again wash.

Embodiment 5: the preparation of chemical plating fluid and to drilling rod plating anti-corrosion method

Parts by weight of raw materials compares:

Nickel sulfate, 70 parts；Nano silicon, 20 parts；Chelating agent EDETATE SODIUM, 15 parts；Disodium hydrogen phosphate, 4 parts； Sodium dihydrogen phosphate, 7 parts；Copper sulfate, 4 parts；Boric acid, 3 parts；Thiourea, 0.3 part；Water, 1000 parts；Ferrous sulfate and sulfur Totally 8 parts of magnesium of acid, the weight ratio of ferrous sulfate and magnesium sulfate is 8:1.

Compound method:

Step S1, after water dissolution disodium hydrogen phosphate and sodium dihydrogen phosphate, adds boric acid, thiourea, stirring and dissolving, adds and receive Rice silicon dioxide, stirs；

Step S2, adds chelating agent EDETATE SODIUM, ferrous sulfate and magnesium sulfate, stirring and dissolving in above-mentioned solution；

Step S3, is eventually adding nickel sulfate and copper sulfate, stirring and dissolving.

To creeping into the method that drilling rod protects:

Step S1, pretreatment: successively drilling rod is washed, alkali cleaning, washing, pickling, washing；

Step S2, chemical plating fluid processes: after pretreatment, soaking plating, temperature 75 DEG C with chemical plating fluid, the time is 2 hours；

Step S3, post processing: after chemical plating fluid processes, again wash.

The weight ratio of embodiment 6: comparative example, ferrous sulfate and magnesium sulfate is 5:1

Parts by weight of raw materials compares:

Nickel sulfate, 70 parts；Nano silicon, 20 parts；Chelating agent EDETATE SODIUM, 15 parts；Disodium hydrogen phosphate, 4 parts； Sodium dihydrogen phosphate, 7 parts；Copper sulfate, 4 parts；Boric acid, 3 parts；Thiourea, 0.3 part；Water, 1000 parts；Ferrous sulfate and sulfur Totally 8 parts of magnesium of acid, the weight ratio of ferrous sulfate and magnesium sulfate is 5:1.

Compound method:

Step S1, after water dissolution disodium hydrogen phosphate and sodium dihydrogen phosphate, adds boric acid, thiourea, stirring and dissolving, adds and receive Rice silicon dioxide, stirs；

Step S2, adds chelating agent EDETATE SODIUM, ferrous sulfate and magnesium sulfate, stirring and dissolving in above-mentioned solution；

Step S3, is eventually adding nickel sulfate and copper sulfate, stirring and dissolving.

To creeping into the method that drilling rod protects:

Step S1, pretreatment: successively drilling rod is washed, alkali cleaning, washing, pickling, washing；

Step S2, chemical plating fluid processes: after pretreatment, soaking plating, temperature 75 DEG C with chemical plating fluid, the time is 2 hours；

Step S3, post processing: after chemical plating fluid processes, again wash.

The weight ratio of embodiment 7: comparative example, ferrous sulfate and magnesium sulfate is 9:1

Parts by weight of raw materials compares:

Nickel sulfate, 70 parts；Nano silicon, 20 parts；Chelating agent EDETATE SODIUM, 15 parts；Disodium hydrogen phosphate, 4 parts； Sodium dihydrogen phosphate, 7 parts；Copper sulfate, 4 parts；Boric acid, 3 parts；Thiourea, 0.3 part；Water, 1000 parts；Ferrous sulfate and sulfur Totally 8 parts of magnesium of acid, the weight ratio of ferrous sulfate and magnesium sulfate is 9:1.

Compound method:

Step S1, after water dissolution disodium hydrogen phosphate and sodium dihydrogen phosphate, adds boric acid, thiourea, stirring and dissolving, adds and receive Rice silicon dioxide, stirs；

Step S2, adds chelating agent EDETATE SODIUM, ferrous sulfate and magnesium sulfate, stirring and dissolving in above-mentioned solution；

Step S3, is eventually adding nickel sulfate and copper sulfate, stirring and dissolving.

To creeping into the method that drilling rod protects:

Step S1, pretreatment: successively drilling rod is washed, alkali cleaning, washing, pickling, washing；

Step S2, chemical plating fluid processes: after pretreatment, soaking plating, temperature 75 DEG C with chemical plating fluid, the time is 2 hours；

Step S3, post processing: after chemical plating fluid processes, again wash.

Embodiment 8: effect example

Drilling rod after embodiment 1～7 plating being processed and the drilling rod (blank) of non-plating are placed in containing drilling fluid and quartz sand Dynamic analog device is carried out friction strengthening experiment, experiment condition is: temperature 85 DEG C, linear velocity 2.5m/s, drilling fluid mud with The mass ratio of quartz sand is 2:1, and wherein quartz sand is 20～60 mesh, measures corrosion of coating situation after corroding 50 hours.

Result such as following table.

	Etching time (hour)	Corrosion rate (mm/a)
			Embodiment 1	50	0.5035
Embodiment 4	50	0.5047
			Embodiment 5	50	0.5051
Embodiment 6	50	0.9686
			Embodiment 7	50	0.9698
Blank	50	1.1759

Embodiment 2,3 test result is basically identical with embodiment 4,5.

The above results shows, the chemical plating fluid stable in properties that the present invention provides, and creeps into creeping into can significantly improve after drilling rod processes The decay resistance of drilling rod, this technique effect is relevant with the weight ratio of ferrous sulfate in raw material and magnesium sulfate, ferrous sulfate When being 6～8:1 with the weight ratio of magnesium sulfate, optimum to the antiseptic effect of drilling rod.

The effect of above-described embodiment indicates that the essentiality content of the present invention, but does not limit protection scope of the present invention with this. It will be understood by those within the art that, technical scheme can be modified or equivalent, and not take off Essence and protection domain from technical solution of the present invention.

Claims (6)

1. an anticorrosion chemical plating fluid, it is characterised in that be prepared from by the raw material of following weight portion: nickel sulfate, 65～75 Part；Nano silicon, 15～25 parts；Chelating agent EDETATE SODIUM, 10～20 parts；Disodium hydrogen phosphate, 3～5 parts；Di(2-ethylhexyl)phosphate Hydrogen sodium, 6～8 parts；Copper sulfate, 3～5 parts；Boric acid, 2～4 parts；Thiourea, 0.2～0.4 part；Water, 900～1100 parts；Sulphuric acid Ferrous iron and totally 7～9 parts of magnesium sulfate, the weight ratio of ferrous sulfate and magnesium sulfate is 6～8:1.

Anticorrosion chemical plating fluid the most according to claim 1, it is characterised in that by the raw material preparation of following weight portion Become: nickel sulfate, 70 parts；Nano silicon, 20 parts；Chelating agent EDETATE SODIUM, 15 parts；Disodium hydrogen phosphate, 4 parts； Sodium dihydrogen phosphate, 7 parts；Copper sulfate, 4 parts；Boric acid, 3 parts；Thiourea, 0.3 part；Water, 1000 parts；Ferrous sulfate and sulfur Totally 8 parts of magnesium of acid, the weight ratio of ferrous sulfate and magnesium sulfate is 7:1.

Anticorrosion chemical plating fluid the most according to claim 1, it is characterised in that by the raw material preparation of following weight portion Become: nickel sulfate, 65 parts；Nano silicon, 15 parts；Chelating agent EDETATE SODIUM, 10 parts；Disodium hydrogen phosphate, 3 parts； Sodium dihydrogen phosphate, 6 parts；Copper sulfate, 3 parts；Boric acid, 2 parts；Thiourea, 0.2 part；Water, 900 parts；Ferrous sulfate and sulphuric acid Totally 7 parts of magnesium, the weight ratio of ferrous sulfate and magnesium sulfate is 6:1.

Anticorrosion chemical plating fluid the most according to claim 1, it is characterised in that by the raw material preparation of following weight portion Become: nickel sulfate, 75 parts；Nano silicon, 25 parts；Chelating agent EDETATE SODIUM, 20 parts；Disodium hydrogen phosphate, 5 parts； Sodium dihydrogen phosphate, 8 parts；Copper sulfate, 5 parts；Boric acid, 4 parts；Thiourea, 0.4 part；Water, 1100 parts；Ferrous sulfate and sulfur Totally 9 parts of magnesium of acid, the weight ratio of ferrous sulfate and magnesium sulfate is 8:1.

5. the compound method of the arbitrary described anticorrosion chemical plating fluid of Claims 1 to 4, it is characterised in that comprise the steps:

Step S1, after water dissolution disodium hydrogen phosphate and sodium dihydrogen phosphate, adds boric acid, thiourea, stirring and dissolving, adds and receive Rice silicon dioxide, stirs；

Step S2, adds chelating agent EDETATE SODIUM, ferrous sulfate and magnesium sulfate, stirring and dissolving in above-mentioned solution；

Step S3, is eventually adding nickel sulfate and copper sulfate, stirring and dissolving.

6. utilize the arbitrary described anticorrosion chemical plating fluid of claim 1～4 to creeping into the method that drilling rod protects, it is characterised in that Comprise the steps:

Step S1, pretreatment: successively drilling rod is washed, alkali cleaning, washing, pickling, washing；

Step S2, chemical plating fluid processes: after pretreatment, soaking plating with chemical plating fluid, plating temperature 70～80 DEG C, during plating Between be 1～3 hour；

Step S3, post processing: after chemical plating fluid processes, again wash.