RU2169209C1 - Volatile corrosion inhibitor - Google Patents

Abstract

FIELD: preservation of products from ferrous and nonferrous metals during storage and transportation thereof. SUBSTANCE: corrosion inhibitor comprises adduct of reaction of mixture of ortho- and paranitrophenol in ratio of 1: 1- 3.1-3.2 wt %, benzotriazole of 0.7-0.8 wt % and triethyl amine or cyclohexylamine of 5.1-5.3 wt % and also isopropyl alcohol of 88.0-87.5 wt %. Claimed corrosion inhibitor has more stable protective effect. When used, content of inhibitor vapors is reduced in atmosphere of working zone. EFFECT: improved properties of the volatile corrosion inhibitor. 1 ex, 1 tbl

Description

 The invention relates to volatile corrosion inhibitors for the conservation of products from ferrous and non-ferrous metals for the period of their storage and transportation.

The regular volatile inhibitor for the conservation of products from ferrous and non-ferrous metals is the G-2 inhibitor [USSR Author's Certificate N 141362, cl. C 23 F 71/02, 1981], used in powder form or in the form of inhibited paper. The disadvantage of this inhibitor is incomplete corrosion protection of products made of cast iron and some non-ferrous metals, insufficiently high (1.7 • 10 ³ Pa) saturated steam pressure [Rosenfeld I. L., Persiantseva V. P. Atmospheric corrosion inhibitors. M .: Nauka, 1985.278 s.].

 The known "Adduct of the interaction of ortho-nitrophenol, benzotriazole and cyclohexylamine, exhibiting anticorrosion activity against ferrous and non-ferrous metals" (adduct OBC), which has a high saturated vapor pressure [USSR Author's Certificate N 272117, cl. C 07 c 79/26, 1988.].

 Closest to the claimed inhibitor is a "Flying corrosion inhibitor" [RF Patent N 2023753, class. C 23 F 11/00 of 05/28/91], which, in order to reduce the vapor content of the inhibitor in the atmosphere of the working area, additionally contains sodium stearate in addition to the OBC adduct. The inhibitor is applied in the form of inhibited paper.

 This inhibitor, however, has insufficient stability of the protective effect during prolonged storage of finished metal products.

 The objective of the invention is to provide a composition of a more volatile and less volatile inhibitor to provide a more stable protective effect and reduce the vapor content of the inhibitor in the atmosphere of the working area.

The objective is achieved in that the inhibitor contains nitrophenol, benzotriazole, an amine and a solvent, a mixture of orthopitrophenol and para-nitrophenol in a 1: 1 ratio is used as nitrophenol, triethylamine or cyclohexylamine as an amine, and isopropyl alcohol as a solvent. The proposed composition of a volatile corrosion inhibitor has the following ratio of components (wt.%):
ortho-nitrophenol - 3.1 - 3.2
para-nitrophenol - 3.1 - 3.2
benzotriazole - 0.7 - 0.8
triethyl amine or cyclohexylamine - 5.1 - 5.3
isopropyl alcohol - 88.0 - 87.5
The concentration of the inhibitory composition as a whole is 12.0-12.5%. This is a saturated solution of an inhibitory composition in isopropyl alcohol.

 Ortho-nitrophenol is a more volatile component, since an intramolecular hydrogen bond is present in its molecules, which is intermolecular in para-nitrophenol. Ortho-nitrophenol as a more volatile component provides stable protection of metal products in the initial period of the possible development of corrosion, and para-nitrophenol as a less volatile component during long-term storage of products.

 This technical solution has a significant difference compared with the prototype, since it does not contain sodium stearate, and a decrease in the volatility of the inhibitor is achieved by reducing the content of the volatile component (ortho-nitrophenol) by 2 times. Instead, a less volatile component, para-nitrophenol, is introduced.

 In the well-known scientific, technical and patent literature, there is no information on the use of a mixture of ortho-nitrophenol with para-nitrophenol in a composition with benzotriazole and amine as a metal corrosion inhibitor.

 The authors of the present invention investigated the inhibitory effect of the proposed composition in relation to ferrous and non-ferrous metals and established its high anticorrosive effectiveness.

 As a solvent in the synthesis of the proposed volatile inhibitor instead of expensive dimethylformamide, you can use less scarce and cheaper isopropyl alcohol, which is also one of the advantages of the proposed technical solution.

 The obtained saturated solution of a volatile corrosion inhibitor in isopropyl alcohol can be used to protect ball valves for the oil and gas industry from atmospheric corrosion by introducing a certain amount of inhibitor solution into the internal cavities of the valves with subsequent sealing of the valves.

 The solution of the proposed volatile corrosion inhibitor is introduced into the metal product at the manufacturer immediately after the manufacture and hydrotesting of the products, which helps to prevent the development of corrosion already in the initial period of storage and transportation to the place of use.

 The prototype solution contains water as a solvent, in addition to dimethylformamide, and is used to impregnate packaging paper with an inhibitor: OBC adduct (6.5 wt.%) And sodium stearate (0.25 wt.%). After the impregnation, the packaging paper is dried, the solvents evaporate, and the inhibited paper is used for packaging metal products with their subsequent sealing by means of a polyethylene cover.

 The method of using the inventive inhibitor is more rational, since the stages of impregnation of packaging paper with an inhibitor solution, packaging of products in inhibited paper and then packaging in a plastic bag are excluded.

 The advantage of the proposed method of introducing the inhibitor into the protected product is that it is introduced in the form of a saturated solution of the inhibitor in an organic solvent and does not contain water. When the inventive inhibitor is introduced into the internal cavities of the protected product, the organic solvent evaporates from the saturated solution, the volatile inhibitor easily reaches the surface of the product and prevents the development of corrosion.

 A saturated solution of the claimed inhibitor has a concentration of 12.5 wt.% It is this total concentration that was chosen for testing the prototype and the claimed inhibitor (see table).

Example: Samples of steel, zinc and copper, processed in a solution of the prototype and in a solution of the proposed inhibitor, were packed in a plastic bag and placed for accelerated corrosion tests in a climatic chamber with a relative humidity of 100% at a temperature of 40 ± 2 ^o C.

The tests were carried out in cycles (1 cycle: 8 hours at a temperature of 40 ± 2 ^o C and 16 hours at a temperature of 25 ± 2 ^o C).

 Inspection of the samples was carried out after 3; 5; 10; fifteen; 30 and 45 test cycles. The tests were carried out on 3 parallel samples of each metal. The test results are presented in the table ("+" - no corrosion, "+" corrosion traces, "-" severe corrosion).

 Based on the results presented in the table, we can conclude that the inventive inhibitor in comparison with the prototype provides more stable protection of steel, zinc and copper from corrosion due to the presence in the inhibitor of a more volatile (ortho-nitrophenol) and less volatile component (para-nitrophenol ) The test results are presented in the table.

 On zinc samples treated with a solution of the prototype, after 5 cycles of testing, traces of corrosion appeared, and after 30 cycles of testing this led to severe corrosion. On steel samples processed in a solution of the prototype, traces of corrosion appeared after 10 test cycles. Copper samples corroded after 45 days.

 Samples of steel, zinc and copper, treated with a solution of the inventive inhibitor with an optimal ratio of the components of the inhibitory composition (items 3-7), did not corrode either at the initial stage of testing (3-5 cycles), or after 45 test cycles.

Claims (1)

A volatile corrosion inhibitor containing the adduct of the interaction of nitrophenol, benzotriazole and amine and an organic solvent, characterized in that a mixture of orthonitrophenol and para-nitrophenol in the ratio 1: 1 is used as nitrophenol, as is aminotriethylamine or cyclohexylamine, isopropyl alcohol as the organic solvent the following content of components, wt.%:
Ortho-nitrophenol - 3.1-3.2
Para-nitrophenol - 3.1-3.2
Benzotriazole - 0.7-0.8
Triethylamine or cyclohexylamine - 5.1-5.3
Isopropyl alcohol - 88.0-87.5

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