RU2418100C1 - Inhibitor of steel corrosion and procedure for its production - Google Patents

Abstract

FIELD: metallurgy. ^ SUBSTANCE: inhibitor contains, wt %: polyoxyethylene with molecular weight 105-8106 0.0005-0.01; modified bentonite with contents of montmoryllonite 80% and over 0.1-0.5; soda ash 0.002-0.02 and water - the rest. The procedure consists in loading concentrated water solution of polyoxyethylene of molecular weight 105-8106 and concentration 0.01-0.2 wt % into a reservoir equipped with a mixer and pH metre. Further, the process is carried out with an operating mixer. Concentrated water solution of soda ash is added at concentration 2-4 wt %; pH is brought to 8-9, water suspension solution of modified bentonite is introduced at rate not over 2 l/min where contents of montmorillonite is 80 % and concentration - 1-2 wt %. Produced mass is mixed during 3-5 min and there is added calculated amount of water. ^ EFFECT: simplified production of inhibitor, reduced time for production, reduced consumption of reagents and improved hygienic and ecological properties of inhibitor composition. ^ 2 cl, 2 ex

Description

FIELD OF THE INVENTION

The group of inventions relates to the field of steel protection against corrosion and can be used to protect overpasses (railway and automobile bridges) and other metal structures or structures.

State of the art

The known composition of the protection of metals from corrosion based on chromates and phosphates with the introduction of salts of amines and organic acids with the addition of surfactants (Ed. Certificate. USSR No. 280163, C23F 11/08, 1972).

The disadvantages of the known composition include the complexity of the composition and the complexity of its preparation, as well as the high consumption of salts, which leads to the high cost of this method of protecting the metal from corrosion.

In addition, the components used are chemically active substances and require special protective measures for their use, as well as special expensive equipment.

Also known is the composition of a metal corrosion inhibitor based on water-soluble polymers, including a water-soluble polyelectrolyte, which is obtained by polymerization of the quaternary ammonium salt of 1,2-dimethyl-5-vinylpyridinium methyl sulfate in an aqueous medium in the presence of a redox initiator β-hydroxypropyl tert-butyl peroxide (patent RU32026565 11/173, 04.20.2003, Bull. No. 11). The inhibitory effect of the known inhibitor is that, being adsorbed on the surface of the metal, it forms a thin protective film, which prevents the occurrence of redox processes.

The substance used is inaccessible and expensive, and the method of its “transformation” (production) into a metal corrosion inhibitor is labor-consuming, since it requires the organization of special production and special equipment, which should be attributed to the reasons that prevent its widespread use. In addition, the product is toxic.

There is a need for new effective tools and methods that can provide:

1) a high degree of corrosion protection of metals when using inexpensive publicly available ingredients, including those produced by the domestic industry;

2) at the same time significantly reduce labor costs for its production;

3) to simplify the technology for its receipt (preparation), which will allow to organize its production (receipt) directly on the spot (processing, for example, a railway bridge);

4) to achieve environmental safety when using an inhibitor in the field;

5) reduce energy consumption in the production and application of the inhibitor;

6) reduce the cost of the entire technological process of inhibition.

The prerequisites for the creation of the present invention that solves the above triune problem (composition, preparation method, application method) were laid down in patent No. RU 2353709. The specified technical solution is the closest in technical essence and the achieved effect to the proposed one and we have chosen for the prototype.

In the specified technical solution, the corrosion inhibitor of steel based on a water-soluble polymer contains bentonite clay, and polyoxyethylene is used as a water-soluble polymer in the following ratio, wt.%:

Polyoxyethylene 0.001-0.1 Bentonite clay 0.5-4.0 Soda ash 0.1-1.0 Water Rest

This composition uses a water-soluble polymer (polyoxyethylene) with a low molecular weight of 6000 (PEG 6000).

This inhibitor, when applied to a steel product, provides a high degree of protection and also reduces the corrosion rate.

Its disadvantages include the following: 1) the finished inhibitor is sensitive to changes in external conditions (temperature), which can lead to irreversible coagulation with loss of inhibitory properties and difficulties in field use; 2) the composition is prepared in a relatively narrow temperature range (18-22 ° C); 3) it takes a long time for swelling and mixing of the components; 4) a relatively high concentration of components.

In the known method for producing a corrosion inhibitor of steel based on a water-soluble polymer in an aqueous medium, an aqueous polymer solution, using polyoxyethylene with a concentration of 0.9-1.0 wt.%, Is loaded into a container equipped with a stirrer and a pH meter, then the process they are carried out with the stirrer operating and at 18-22 ° C, then a solution of soda ash with a concentration of 0.9-1.0 wt.% is introduced and the pH is adjusted to 8-9, after which a solution of an aqueous bentonite suspension is introduced at a rate of 1 l / min clay with a concentration of 5-10 wt.%, then add the calculated amount water and the resulting mass are mixed for 10-15 minutes.

The described method meets the requirements for obtaining an inhibitor of a given effectiveness. However, the practical implementation of the method, especially in the field, is fraught with a number of difficulties:

1) it is required to strictly control the temperature of the process, and it also takes a relatively long time to prepare the components and mix the solution, and any violation of the technology inevitably leads to irreversible coagulation of bentonite;

2) it is not possible to pre-prepare the inhibitor in concentrated form, so that before use it can only be diluted with water;

3) special equipment with temperature control is required;

4) low hydrodynamic properties of the composition, making it difficult to apply the inhibitor.

The proposed inventions are interconnected by a single inventive concept, i.e. the single task to which the claimed group of inventions is directed is to use a commonly available water-soluble polymer with a molecular weight of 10 ⁵ -8 · 10 ⁶ , such as, for example, polyoxyethylene, and other components, and in small quantities, and simplification of the technology (method) obtaining a final product that does not require special conditions. The process of obtaining an inhibitor can be organized directly at the facility, for example, when processing a railway bridge.

The technical result of the group of inventions is:

1) the simplification of the technology of preparation of the inhibitor due to the exclusion of operations for temperature control;

2) reducing the time of preparation of the solution;

3) the emergence of the possibility of preparing a concentrated solution of the inhibitor with its subsequent dilution to the desired concentration immediately before use;

4) reducing the consumption of reagents for surface inhibition, improving the hygienic and environmental properties of the composition by reducing the concentration of components;

5) reduction of internal friction during pumping and application of the inhibitor due to the use of a water-soluble polymer with a high molecular weight.

The essence of the group of inventions

The specified single technical result in the implementation of the group of inventions in relation to the substance is achieved by the fact that the well-known steel corrosion inhibitor based on a water-soluble polymer of polyoxyethylene and bentonite clay is used as a water-soluble polymer with a molecular weight of 10 ⁵ -8 · 10 ⁶ , and used as a bentonite clay modified bentonite with a content of montmorillonite of 80% or more in the following ratio of components, wt.%:

Polyoxyethylene with a molecular weight of 10 ⁵ -8 · 10 ⁶ 0.0005-0.01 Modified Bentonite 0.1-0.5 Soda ash 0.002-0.02 Water Rest

The proposed inhibitor has more stable thermochemical properties, it can be prepared in concentrated form and diluted with water to the desired concentration immediately before application. In addition, the use of high molecular weight water-soluble polymers improves the hydrodynamic characteristics of the inhibitor solution, which greatly facilitates its application using high pressure pumps. Very low polymer concentrations provide environmental safety in the production and use of the material in the field without additional safety measures. The use of polyoxyethylene with a higher molecular weight is also possible; we have tested compositions based on polyoxyethylene with a molecular weight of up to 20 · 10 ⁶ . However, the range of molecular weights up to 8 · 10 ⁶ is preferable from a practical point of view, since at higher molecular weights, the initial concentrated polymer solutions become very viscous, easily undergo mechanical degradation, and their use in the field is impossible without special equipment.

In addition, the proposed composition used modified bentonite with a high content (more than 80%, while in ordinary bentonites its content does not exceed 50%) of the main active component - the mineral montmorillonite. In modified bentonite, the size of clay particles is reduced to 1-100 nm and the swelling is improved, this provides ease of dissolution, increased sedimentation stability of the suspension, facilitating and reducing the time for preparing solutions. The higher cost of modified bentonite (about 1.5-2 times) is offset by its lower content (about 5 times).

In this case, the use of a polymer with a high molecular weight of 10-8 · 10 ⁶ makes it possible to significantly, 5-10 times, reduce the required amount (concentration) of both the polymer itself and other components. Reducing the concentration of components is also possible due to the simultaneous use of modified bentonite, where the proportion of the main active substance - the mineral montmorillonite reaches 80% or more.

It is possible to achieve the optimal ratio between the components with a simultaneous decrease in their quantity necessary to achieve the desired protective effect.

The technical result of the invention in relation to the method of producing the inhibitor is achieved by loading a concentrated aqueous solution of polyoxyethylene with a molecular weight of 10 ⁵ -8 · 10 ⁶ , with a concentration of 0.01-0.2 wt.%, Then the process is carried out with the stirrer working, then a concentrated aqueous solution of soda ash with a concentration of 2-4 wt.% is introduced and the pH is adjusted to 8-9, after which a solution of an aqueous suspension of modified bentonite with a concentration of 1-2 wt.% and the resulting mass are introduced mix in those ix 3-5 minutes until uniform and then add the calculated amount of water.

The composition of the material is formed in such a way that during its manufacture there is no direct dependence on the temperature regime. The proposed method can significantly simplify and speed up the process by increasing the mixing speed of the components (2 l / min instead of 1 l / min) and reducing the time of their mixing (3-5 min instead of 15-20 min). As a result, the inhibition process is simplified and cheaper, the environmental consequences of using the inhibitor in the field are improved, and the process of applying it to a steel surface is also simplified.

The process of obtaining an inhibitor can be organized directly at the facility, for example, when processing a railway bridge, or using a mobile unit to obtain a single technical result:

- the use of a commonly available inexpensive water-soluble polymer and other cheap non-toxic components;

- simplification of the technology (method) of obtaining the final product that does not require special equipment;

- the possibility of organizing the production of an inhibitor at the working site of the processed object.

The proposed inventions are interconnected by a single inventive concept, i.e. the single task to which the claimed group of inventions is directed is to use a generally available water-soluble polymer - polyoxyethylene with a molecular weight of 10 ⁵ -8 · 10 ⁶ and modified bentonite with a content of monmorillonite from 80% or more, and in small quantities, and simplification of the technology ( method) of obtaining a final product that does not require special equipment.

Preferred Embodiment

Steel corrosion inhibitor

A common example.

The corrosion inhibitor of steel based on a water-soluble polymer, which is used as polyoxyethylene and modified bentonite, contains polyoxyethylene with a molecular weight in the following ratio, wt.%:

Polyoxyethylene with a molecular weight of 10 ⁶ -4 · 10 ⁶ 0.001-0.01 Modified Bentonite 0.3-0.4 Soda ash 0.002-0.02 (up to pH 8-9) Water rest

The presence in the polymer solution - polyoxyethylene with a high degree of polymerization and modified bentonite clay with a high content of montmorillonite provide aggregative stability of the obtained composition (sedimentation-resistant colloidal system) with the necessary rheological properties.

In the indicated pH range, long and polar polymer molecules in the solution straighten (at lower values they coagulate in a compact ball, higher values are acceptable but undesirable due to hygienic and environmental requirements), they are easily and firmly adsorbed on the polar surface of montmorillonite microparticles and reliably provide aggregative stability of the resulting colloidal dispersion. In the indicated concentration range, the required level of rheological properties is also provided: pseudoplasticity (thixotropy) at low shear rates and dilatancy (change in material volume during shear deformation) under conditions of high-speed dynamic action. Due to the very high length of the molecule (exceeds the particle size of montmorillonite), the polymer itself requires much less, and the quality of stabilization increases (the interparticle distance increases). In addition, the presence of a high molecular weight polymer improves the hydrodynamic characteristics of the flow of the composition (laminar flow at high flow rates) and, therefore, simplifies the process of applying the inhibitor using high pressure pumps.

The claimed combination of essential features, namely the qualitative and quantitative composition of the steel corrosion inhibitor:

1) allows you to get an inexpensive tool based on generally available components, and their quantitative composition and concentration are minimized;

2) the starting components are non-toxic, which is very important from an environmental point of view;

3) the composition has a number of new positive qualities: it is resistant to thermal degradation, it can be prepared in advance in a concentrated form, it is efficient in a wide temperature range, it has improved hydrodynamic characteristics, the technology of using (applying) an inhibitor is simplified.

A preferred embodiment of the invention.

A method of obtaining a corrosion inhibitor of steel

A common example.

A concentrated aqueous solution of polyoxyethylene with a molecular weight of 4 · 10 ⁶ , with a concentration of 0.01-0.2 wt.% Is loaded into a container equipped with a stirrer and a pH meter, then the process is carried out with the stirrer working, then a concentrated aqueous solution of soda ash is introduced with a concentration of 3 wt.% and adjust the pH to 8-9, after which a solution of an aqueous suspension of modified bentonite with a concentration of 1-2 wt.% is introduced at a rate of not more than 2 l / min and the resulting mass is stirred for 3-5 minutes, then add the calculated amount of water to obtain and inhibitor of a given concentration.

An example of a specific method of obtaining an inhibitor

To process, for example, one span of a railway bridge, the claimed inhibitor is prepared as follows.

In two separate containers of 120 l and 60 l, swollen solutions of the starting components are preliminarily prepared. 0.02 kg of polyoxyethylene with a molecular weight of 4 · 10 ⁶ (for example, Polyox WSR-301 brand manufactured by Union Carbide Chemicals & Plastics Technology) and 50.0 kg of water are loaded into a first 120-liter container with stirring. 3.0 kg of modified bentonite clay with a content of montmorillonite of more than 80% (for example, Bentocon grade TU 5751-002-5 8156178-02) and 47.0 kg of water are loaded into a second 60-liter capacity with stirring.

A 3% solution of soda ash is added to the polyoxyethylene container and the pH of the solution is adjusted to 8-9 (about 1 kg of soda solution is required). Then the contents of the container with bentonite are poured with constant stirring at a speed of 2 l / min into the container with polyoxyethylene, the composition is mixed until a homogeneous state is 3-5 minutes.

The result is 101 kg of concentrated inhibitor solution, which can be stored closed for a long time. Immediately prior to application of the inhibitor, the resulting concentrate is poured into a 1000-liter container, 899 kg of water are added and mixed. You can also use more concentrated solutions of polyoxyethylene and bentonite in the preparation of the concentrate, however, this increases the viscosity of the polymer solution, which complicates the procedure for mixing the components, especially in the field.

Thus, the resulting composition is within the declared concentrations (polyoxyethylene 0.002 wt.%, Bentonite 0.3 wt.%, Soda 0.003 wt.%).

The use of a steel corrosion inhibitor obtained by the described method is as follows.

A liquid inhibitor is applied to steel structures using a high pressure deposit. As a result of the interaction of the liquid jet of the inhibitor with a solid steel surface, a polymer-mineral film with high mechanical and adhesive properties is formed.

Preliminary laboratory tests of the inventive steel corrosion inhibitor at temperatures from -40 to + 45 ° C showed that it provides a degree of protection of 95-99% and reduces the corrosion rate to 0.0001 g / m ² h

Thus, the above information indicates the fulfillment of the following set of conditions when using each of the objects of the claimed group of inventions:

for each claimed invention as described in the corresponding claims, the possibility of its implementation using the means and methods described in the application has been confirmed;

The claimed technical solutions are able to ensure the achievement of the technical result perceived by the applicant.

Therefore, the claimed group of inventions meets the requirement of "industrial applicability".

The analysis of the prior art by the applicant, including a search by patent and scientific and technical sources of information and identification of sources containing information about analogues of the claimed group of inventions for both the substance and the method, allow us to state that the claimed solutions meet the requirement of "novelty" and "Inventive step".

It should be noted that the advantages of the proposed group of inventions are provided by the presented set of essential features, each of which performs its function, and together, in conjunction, they solve the problem of creating an effective inhibitor from inexpensive components and a simple technology for its preparation, almost anywhere.

Claims (2)

1. A steel corrosion inhibitor based on a water-soluble polymer and bentonite clay, characterized in that polyoxyethylene with a molecular weight of 10 ⁵ -8 · 10 ^{6 is} used as a water-soluble polymer, and modified bentonite with a montmorillonite content of 80% or more is used as a bentonite clay the following ratio of components, wt.%:
polyoxyethylene with a molecular weight of 10 ⁵ -8 · 10 ⁶ 0.0005-0.01 modified bentonite 0.1-0.5 soda ash 0.002-0.02 water rest 2. A method of obtaining a corrosion inhibitor of steel based on a water-soluble polymer and bentonite clay according to claim 1, which consists in loading a concentrated aqueous solution of polyoxyethylene with a molecular weight of 10 ⁵ -8 · 10 ⁶ , into a container equipped with a stirrer and a pH meter with a concentration of 0.01-0.2 wt.%, and then with a working stirrer, a concentrated aqueous solution of soda ash with a concentration of 2-4 wt.% is introduced and the pH is adjusted to 8-9, after which at a speed of no more than 2 l / min a solution of an aqueous suspension of modified bentonite containing montmorillonite 80% or more with a concentration of 1-2 wt.%, the resulting mass is stirred for 3-5 minutes and add the calculated amount of water.