HU196633B - Inhibitor comprising aminoalkanic acid anilide derivatives - Google Patents

Abstract

The invention relates to an inhibitor preparation for inhibiting corrosion of metals exposed to the action of mineral acids. The preparation according to the invention comprises, as active substance, aminoalkanoic acid anilides (aminoalkanoanilides) of the general formula (I) <IMAGE> in which X and Y independently of one another represent hydrogen, halogen or the methyl, ethyl, methoxy, ethoxy or trifluoromethyl group, R1 denotes hydrogen or the methyl group and R2 and R3 independently of one another represent an alkyl group having 1-6 carbon atoms or the cyclohexyl group. The compounds are prepared by reacting the corresponding 2-halocarboxanilides with the appropriately substituted secondary amines.

Description

The present invention relates to an inhibitor composition comprising the aminoalkanoic acid anilide derivatives of formula (I).

In the general formula (I)

X and Y are each independently halogen or trifluoromethyl;

R, hydrogen

R ₂ and R _{3 may be the} same and C 3-6 alkyl.

The halogen atom represented by X cs in Y represents fluorine, chlorine or bromine.

The substituents R ₂ and R ₃ may be propyl, butyl, pentyl, hexyl and isomers thereof.

These compounds are used as a topical anti-inflammatory or anti-inflammatory agent according to JP 7224.547 (06.07.1972).

The compositions of the present invention comprising compounds of formula I inhibit corrosion of exposed mineral acids and thus exhibit inhibitory activity. The field of application is the metallurgical industry. where dilute mineral acids are used primarily for the pickling and purification of sulfuric acid metals. In addition, dilute mineral acids are also used in the chemical industry and power generation, product side and / or water side cleaning devices, and in oil mining to crack bedrock.

The conditions for treating metals with mineral acids can vary widely depending on the purpose, and a good inhibitor must meet many requirements at the same time.

The protective effect should not be reduced by varying acid concentration and temperature in the presence of foreign metal ions and other impurities, further requirements are good solubility and dosing, chemical stability, the degree of foaming required for the technology, etc. A composition comprising the compounds of formula (I) and other adjuvants satisfies all of these requirements.

The active compounds of the general formula (I) can be formulated with water or water. aqueous solutions of mineral acids or other diluents, e.g. diluted with alcohol. The formulations contain from 0.01 to 30% by weight of active ingredient, 40 to 60% by weight of carrier, 20 to 25% by weight of surfactant, and 10 to 25% by weight of adjuvants.

The carrier is an alcohol, preferably ethyl alcohol.

The surfactant (s) may be primarily non-ionic emulsifiers, e.g. fatty acid - polyethylene glycol esters, fatty alcohol - polyethylene glycol ethers, phenol - polyethylene glycol! ethers, fatty acid alkanol amines, etc.

Λ Boosters, which are corrosive protective agents, their mechanism is unknown, can be organic amines such as. n - butylamine, 5

butylamine, di - n - propylamine, diisobutylamine, N - isopropylaniline, pyridine, quinoline and inorganic salts, e.g. tin oxide, potassium iodide, etc.

Formulations containing the active compounds of formula (I) are useful in reducing the corrosion of metals treated in acid baths at concentrations ranging from 0.02 to 1.0% by weight of the active ingredient.

No. 1 Table I below summarizes the compounds from which the formulations were prepared.

The following examples illustrate the invention.

Composition of preparations

i. Example 5 (Preparation 2) 5% by weight of inhibitor concentrate by weight of compound 4 by weight of 10% by weight of diisobutylamine ³⁰ 25% by weight of polycarbonyl fatty acid ester by weight of ethyl alcohol 20% by weight of n-propyl alcohol

Example 2 (Formulation 3) 15% by weight of inhibitor concentrate by weight of compound 5

4θ 15% by weight of dipropylamine% by weight of polyethylene glycol fatty acid ester 40% by weight of ethyl alcohol% by weight of i-propyl alcohol

Example 3 (Formulation 4) 15% by weight of inhibitor concentrate

15% by weight of active ingredient No. 5 by weight of diisobutylamine 60% by weight of ethyl alcohol

Table L

The active ingredients of our preparations are compounds of formula (I) screaming

number X Y Ri rj rj Mp 20 'C no 4th 3 —Cl 4-C1 H i-Butyl i-Butyl 74-78'C 5th 3-CFA 4-Cl H i-party! i-Butyl 1.4895 11th 3 —Cl 4-Cl H i-propyl i-propyl IO3-ÍO5'C 12th 3-CFS 4-Cl H i-propyl i-propyl 1.4920

196,633

Vcdöhalás exams / Al

The gravimetric method is used to investigate the effect of vc, the principle of which is to measure the rate of corrosion by weight loss of specimens. The test specimens are made of 50 x 20 x 0.7 mm unbroken, unbroken shiny and soft steel strip MSZ 4213 ASM 1/16. It is treated by grinding by degreasing in a tube accton. Place the beakers containing the various acid solutions in a water bath thermostat at the temperature of the test. At the end of the test times, rinse with detergent, dry in acetone, and then weigh back. The corrosion rate is calculated in g / m ² .

For the purposes of the inhibitor kill measure, we use the concept of percent protective effect, which expresses the amount of metal preserved as a result of the effect of the inhibitor as a percentage of the amount of metal lost without the use of the inhibitor:

H = protective effect of inhibitor%

K _o = corrosion rate in inhibitor-free acid, g / m ² .

Ki = corrosion rate in inhibitor containing acid, g / m ² .

The protective effects of the formulations are compared with one of the best-known Armohib28 inhibitors on the world market (manufactured and marketed by Armor Hess Chemicals Limited, London Hyde Park 7831). The chemical composition of Armohib-28 has only been disclosed that it consists of aliphatic nitrogen derivatives.

The results of our series of experiments to achieve optimum protective efficacy - and this coincided with the use concentration of generic and known inhibitors - showed that 0.2% by weight of the formulation provided the most acceptable results.

Thus, the protective effect is investigated by dissolving ® the amount of composition required to achieve a concentration of 0.2% w / w in 5 to 20% hydrochloric acid. The oklatba inserting the prepared test pieces after the homogcnizálása and tempering, and then proceeds as described above ^u.

The results of the security investigations are set out in Annex II. s. Table 4, which shows that the composition of the invention has a better protective effect than Armohib-28 in all cases.

Briefly, the main advantages of the invention are as follows:

The compositions provide excellent protection against corrosion of metals exposed to acids over a wide range of concentrations and temperatures.

Claims (1)

A patent claim I. A liquid phase inhibitor composition comprising an aminoalkanoic acid anilide derivative comprising 0.01 to 30% by weight of an aminoalkanoic acid anilide derivative of formula (I) wherein X and Y are each independently halogen or trifluoromethyl; Rj is hydrogen % R _{2 and} R are identical and C3-6 alkyl-weight surfactant - preferably fatty acid - polyethylene glikcl - ester - organic 10-20% builder material afninokat, preferably di - isobutyl - as - if desired, in 100 parts by weight and water or a solution of mineral acids in water. com, table Examination of the protective effect in hydrochloric acid Duration / and 2 hours Inhibitor preparation concentration 0.2% by weight Temperature 'C Protective fish ss average% % by weight of hydrochloric acid machine erosion 18 20 5 10 15 30 70.0 83.7 f 1.5 - 97.9 40 - - - 98.8 - 30 72.3 84.0 '2.5 - 98.0 40 - - - 98.6 - 30 71.9 82.8 52.0 - 97.8 40 - - - 97.6 - 30 65.3 76.1 í8,9 - 96.3 40 - - - 97.0 - pieces of wood flavor