RU2452794C2 - Reusable inhibited polymer article - Google Patents

Abstract

FIELD: metallurgy.

SUBSTANCE: proposed article is made from polyethylene or propylene. Note here that article material contains volatile corrosion inhibitor "ВНХ-Л-20" dispersed in contact inhibitor "ФМТ" at the following ratio of components, wt%: %: "ВНХ-Л-20" - 1.2," ФМТ - 1", polyethylene or propylene - 97.8.

EFFECT: higher efficiency of metal protection.

6 tbl, 3 ex

Description

The invention relates to means of temporary anticorrosive protection of metals and metal products, in particular to inhibited materials, and can be used to protect metal products and structures from atmospheric corrosion, for the period of storage, transportation or interoperational protection.

Various papers are known impregnated with anticorrosive compositions for wrapping metal products during transportation and storage [for example, UNIK, UNI 22-80 papers according to GOST 16295-93]. The disadvantage of such papers is their low strength and resistance to tear and puncture. Papers are easily torn and frayed during transshipment processes and have low shielding properties. In addition, they are opaque and do not allow to inspect the appearance of the product.

The best results are obtained when reinforcing the paper base with a polymer mesh or when replacing paper with polymer films.

Single-layer and multi-layer packaging materials are known in the form of a polymer film made in the form of a sleeve, half-sleeve or fabric with a thickness of 25 to 250 microns, due to coextrusion, lamination, lamination of which complexes of volatile atmospheric corrosion inhibitors are introduced.

These are the well-known materials of Zerast, Kortek (for example, VpCI-126 film) or the domestic Metal-Protect material [RF patent No. 2287466], which includes a six-component complex of Cesa-Cor 9103 inhibitors (0.1-0.5%), cyclohexylamine chromate (1.0-2.0%), Schelfplus O2 2400 oxygen scavenger (2.0-10.0%), high density polyethylene FL 5580 (10.0-40.0%), low density polyethylene 15803-020 (47 , 5-86.9%).

The closest analogue of the claimed invention is a polymer anticorrosive film described in SU 1669929 A1, C08J 5/18, publ. 08/15/1991.

The main disadvantage of almost all known films is that the composition of the complex of volatile inhibitors includes components hazardous to humans and nature (in particular, molybdates, chromates, nitrites) that do not meet modern environmental protection requirements. In addition, the shelf life of metal products with such films is insufficient for storage, especially in conditions of high humidity and exposure to atmospheric factors. To achieve sustainable long-term corrosion protection, films of increased thickness and absolutely reliable sealing of the product (welding of joints, the absence of cuts and other defects), as well as the use of VCIs with increased vapor pressure are required. Otherwise, any accidental damage to the film leads to a drop in the vapor pressure of the inhibitor and weakening or termination of protection.

The technical result of the invention is to increase the effectiveness of the protection of metal products from corrosion.

The technical result is achieved due to the fact that the polymer inhibited reusable product based on polyethylene or propylene is made of a material containing a volatile corrosion inhibitor (VCI) VNX-L-20 dispersed in a contact corrosion inhibitor FMT, in the following ratio, wt.% :

LIK VNH-L-20 1,2 FMT one Polyethylene or polypropylene 97.8.

The inhibited material is formed in the form of a polymer product of arbitrary shape (threads, rods, granules, plates, washers, plugs, etc.) with a corrosion inhibitor concentrate embedded in the polymer volume. The product is embedded inside the insulating screen, and after the end of protection - is removed. The conservation-de-conservation cycle can be repeated many times, the product is durable and does not lose its protective properties when stored in open conditions.

The volatile corrosion inhibitor VNX-L-20 (TU 2478-004-48938796-2007) used is a condensation product of benzaldehyde and morpholine (dimorpholinophenylmethane). BHX-L-20 is a well-known universal and effective inhibitor for the protection of ferrous and non-ferrous metals. It is known for its use in the form of a powder, inhibited paper, and on a porous carrier with an inhibitor content of 300-500 g / m. Provides protection for products for up to 10 years with reliable sealing.

Sublimated in a vacuum, starting at 150 ° C, undergoing, however, irreversible destruction. According to the calorimetry of evaporation [Trusov V.I. Issues of thermodynamics of atmospheric corrosion inhibition. - Protection of metals. T.22. No. 6. 1986. S.966-970]:

logP, Pa = (12.7 ± 7.2) - (4500 ± 2530) / T.

At 25 ° C, P _subl = 4.4 · 10 ^-5 hPa, which is lower than that of low-volatile nitrite dicyclohexylamine (NDA inhibitor - 10 ^-4 hPa). The experience of full-scale tests of VNX-L-20 shows that under atmospheric conditions it has a significantly higher volatility in comparison with NDA. The reason for the discrepancy is that this class of morpholine derivatives is extremely easily hydrolyzed to release volatile starting components into the gas phase [Kerfanto M., Brault A., Venien F., Morvan JM - Bull. Soc. Chim. Fr 1975, p.196].

Contact corrosion inhibitor FMT is a product of the processing of plant materials. It contains fatty acids of tall oil (GOST 14845-69) modified with natural coniferous concentrate [Trusov V.I., Tatarenkov I.V., Nekrasova V.B., Kurnygina V.T. Patent for invention №2256005. Published July 10, 2005. Bull. No. 19].

The VNX-L-20 powder dispersed in a liquid FMT base is introduced into films based on polyolefins when they are extruded to a VIC concentration of 1.13% (based on the weight of the film). At VNX-L-20 concentrations of 1.3% and higher, its aggregation in the film begins, with a corresponding loss of the physicomechanical and moisture-protective properties of the film. Liquid FMT acts as a tread that protects VNX-L-20 from heat shock during extrusion.

In the claimed technical solution, in contrast to the prototype film, another method of introducing a complex of inhibitors into the polyolefin is used, which allows to significantly increase the concentration of VCI, the mechanical strength of the polymer matrix and at the same time reduce the loss of VCI during storage in the absence of an insulating screen.

For the manufacture of granules, rods, threads, extruders are used with a heated hopper (t = 40 ± 2 ° C) and the corresponding heads and cutting unit. Preliminarily, in a container with a heating jacket (t = 40 ± 2 ° C) and at a stirrer speed of 200-250 rpm, the LIK VNX-L-20 powder is dispersed in a liquid FMT inhibitor until a homogeneous mass is formed, visual control. When the desired result is achieved, a stirrer speed of 400-500 rpm is loaded into the tank with the mixer running, and the calculated amount of polymer is loaded. Stirred for 10-15 minutes until the polymer granules are completely wetted, visual control. The mixture thus obtained is discharged into the hopper of the extruder.

For the manufacture of products by extrusion, single screw extruders with three heating zones and a ratio of length / to screw diameter of at least 30 are used.

The temperature in the loading zones should be as follows: A - supply zone - 155 ° C; B - plasticization zone - 165 ° C; С - dosing zone - 180 ° C. A grid with grids is installed on the extruder head, the diameter of the holes in the grids is chosen equal to the diameter of the finished product (granules, rod, threads). After extrusion, the melt in the form of threads passes through a water bath, and then, using a pulling mechanism, the inhibited polymer cooled to room temperature is fed to the cutting unit. Finished products on an inclined trough are loaded into a container.

For the manufacture of inhibited polymer plates, rolls with a heated hopper (t = 40 ± 2 ° C) and rolls (roll temperature from 155 ° C to 180 ° C at the outlet) are used.

Currently, it is possible to obtain a polymer with a concentration of VIC of 15-18%. Products with a LIC concentration of less than 1.2% do not exhibit the new properties described below, in terms of protective capabilities they are the same films.

The proposed product is fundamentally different from the known porous VCI carriers such as foam rubber, silica gel, tablet and granular VCI forms, where the sublimation rate does not differ from pure VCI, as well as from film materials where high VCI concentrations are unattainable.

The claimed technical solution is original and does not follow in an obvious way from the existing level of technology. Distinctive features of the solution in the claimed composition allowed to obtain new unexpected effects. This is a stable long-term protection of the metal (Table 1) with sublimation of the VCI from the matrix volume, and not only from the surface layer of the product. In this case, no expansion of the induction, initial period of weakened protection was revealed when the vapor pressure of the VCI did not reach saturation. On the other hand, the rate of VCI loss during storage of an inhibited polymer product in the open air is many times lower in comparison with the initial VCI powder (Table 2). It is possible that the contact FMT inhibitor not only protects BXX-L-20, but also takes part in the formation of the matrix due to the partial copolymerization of polyunsaturated acids and the transition of the main component of the FMT of oleic acid from liquid cis to solid trans form of elaidic acid. The use of other known liquid-phase saturated products, including mineral oils of the I-20 type, etc., instead of FMT, does not give a positive result.

The inventive inhibited product can be manufactured industrially using standard extrusion equipment from standard components in the required volume. For example, a product in the form of granules is made by extrusion in a granulator, and a film is made by extrusion in a single-layer extruder by blowing the sleeve.

The fields of application of the new product are related to the conservation of products and equipment in mechanical engineering, metallurgy, heat power engineering, transport, etc.

The protective properties of the product samples in comparison with the similar parameters of the prototype film are presented in table 1. Tests and evaluation of protective properties were carried out according to method 1 of GOST 9.054-75, GOST 9.311-87, by the method of accelerated testing of steel samples in a heat and moisture chamber. The daily test cycle included 8 hours at a temperature of 40 ° C and 16 hours under conditions of natural cooling of the chamber to room temperature. The total test duration was 15 daily cycles. After each cycle, the surface of the samples was examined and the value of the surface of the sample containing corrosion products was measured in percentage terms.

Table 1 Reusable corrosion tests on one sample of metal grade steel St3 in a film (prototype) and in a wooden container with the claimed product in the form of granules in three consecutive series Test Series Number Assessment according to GOST 9.311,% of corrosion damage / types of corrosion damage, after the number of daily cycles one 2 3 four 5 10 eleven 12 13 fifteen 1 (Film) 0 0 0 0 0 0 0 0.12 0.5 1,2 2 (film) fifteen 36 57 75 Filmed 3 (film) 80 Filmed room Assessment according to GOST 9.311,% corrosion damage / types test series Corrosion damage, after the number of daily cycles: one 2 3 four 5 10 eleven 12 13 fifteen 1 (Product) 0 0 0 0 0 0 0 0 0 0 2 (product) 0 0 0 0 0 0 0 0 0 0 3 (product) 0 0 0 0 0 0 0 0 0.12 0.12

table 2 Loss of mass VNH-L-20 in the absence of an insulating screen No. Type of carrier VNH-L-20 The initial mass, g
In parentheses -% VNX-L-20 Mass loss in a day, Numerator - absolute, g Denominator - relative,% 7 fourteen 21 28 35 T = 20 ° C one Powder VNH-L-20 12.17 (100) 0.46 / 3.8 0.67 / 5.5 0.82 / 6.7 0.96 / 7.9 1.12 / 9.2 2 Product in the form of granules 23.62 (5.0) 0.36 / 1.5 0.43 / 1.8 0.50 / 2.1 0.52 / 2.2 0.53 / 2.25 3 Product in the form of a thread 22.79 (6.0) 0,03 / 0,13 0.05 / 0.22 0.05 / 0.22 0.06 / 0.26 0.06 / 0.26 four Rod product 37.49 (6.0) 0.02 / 0.05 0.02 / 0.05 0,03 / 0,08 0,03 / 0,08 0,03 / 0,08 T = 40 ° C 5 Powder VNH-L-20 13.54 (100) 0.83 / 6.1 1.26 / 9.3 1.58 / 11.7 2.01 / 14.8 2.31 / 17.1 6 Product in the form of granules 28.12 (5.0) 0.22 / 0.78 0.66 / 2.3 0.78 / 2.8 0.81 / 2.9 0.83 / 2.95 7 Product in the form of a thread 34.84 (6.0) 0,07 / 0,2 0.09 / 0.26 0.12 / 0.34 0.16 / 0.46 0.17 / 0.49 8 Rod product 35.75 (6.0) 0.02 / 0.06 0,03 / 0,08 0,07 / 0,19 0.11 / 0.30 0.12 / 0.33

The test results confirm that the inhibited product according to the invention is characterized by higher and stable protective properties than the prototype, while reducing the rate of loss of VCI from the carrier into the environment and, thus, can be used many times in the conservation-re-conservation of various metal products .

Examples of practical use and testing on real metal products

Example P 1. The product in the form of a rod with a diameter of 10 mm

The metal product is a piece of Russian-made hunting rifle (Izhevsk arms factory) of the IZH 27 E brand, length 100 mm, diameter 16 mm, wall thickness 6 mm. 4 series of corrosion tests were carried out with 15 daily cycles in each. In all trials, the Anticorrosion pattern was the same.

The outer surface of the metal trim is protected by the paintwork of the gun manufacturer. The inner surface is uncoated and greased. Cleanliness class 11, processing accuracy class 14.

The estimated amount of “Anticorrosion rod” was placed inside the edge, the hole on both edges was covered with polyethylene film of brand “M” according to GOST 10354-82, 100 microns thick, the edges of the film were sealed with tape.

Table 3 Test results of the product in the form of a rod Test Series Number Assessment according to GOST 9.311,% of corrosion damage / types of corrosion damage, after the number of daily cycles one 5 9 eleven fifteen one 0 0 0 0 0 2 0 0 0 0 0 3 0 0 0 0 0 four 0 0 0.08 0.75 2.2 * * corrosion from two edges of the inner surface at a distance of 2 mm from each edge

Example P 2. The product in the form of a thread with a diameter of 5-6 mm

The metal samples were details of complex configuration with holes of various diameters and lengths: 4 carburetor bodies without the cover of a Russian truck of the GAZ 53 brand. The product in the form of a thread was wrapped around the entire surface of the metal sample so that part of the surface of the carburetor body (35-40 % of the area) did not come into contact with the thread.

In all four test series, the same product sample and one carburetor body were used. After each test, the surface of the carburetor body was cleaned of corrosion products in accordance with GOST 9.905 and GOST 9.054. In the first variant of protection, no covering material was used.

In the second embodiment, a polypropylene film according to TU 381022-75 with a thickness of 150 μm was used as a covering material.

In the third version, a polyethylene film of the brand "M" according to GOST 10354-82, 500 microns thick, was used as a covering material. The test results are shown in tables 4-6.

Table 4 The test results of the product in the form of a thread without a covering material Test Series Number Assessment according to GOST 9.311,% of corrosion damage / types of corrosion damage, after the number of daily cycles one 5 9 eleven fifteen one 0 0 0 0 0 2 0 0 0 0 0 3 0 0.3 0.55 2.5 5.5 four 1.8 7.5 38 80 Filmed

Table 5 The test results of the product in the form of a thread with a cover of a polypropylene film Test Series Number Assessment according to GOST 9.311,% of corrosion damage / types of corrosion damage, after the number of daily cycles one 5 9 eleven fifteen one 0 0 0 0 0 2 0 0 0 0 0 3 0 0 0 0 0.1 four 0.2 1.3 2.5 25 85

Table 6 Test results of the product in the form of a yarn with a plastic wrap Test Series Number Assessment according to GOST 9.311,% of corrosion damage / types of corrosion damage, after the number of daily cycles one 5 9 eleven fifteen one 0 0 0 0 0 2 0 0 0 0 0 3 0 0 0 0 0 four 0 0 0 0 0

Example P 3. The product in the form of plates with a thickness of 500 μm

Metal parts - ball-bearing needle-rollers produced by the Shchumikhinsky factory of ball-bearing needle-rollers according to GOST 6870-81, metal grade ШХ 15, purity class 14, accuracy class 14.

In a cardboard box made of cardboard of a box grade “B” according to GOST 7933-75, used as packing material at bearing enterprises, they placed the product in the form of plates with dimensions of 100 × 100 mm and a thickness of 500 μm, then spilled acorolics without lubrication and put them on top another plate of the same size. The box was tightly closed, the edges were glued with adhesive tape and put into a plywood box in accordance with GOST 16148-79, which was previously laid out from the inside with bitumen paper produced in accordance with GOST 515-77.

4 series of tests were conducted with 15 daily cycles in each. Corrosion was not detected in any cycle. The same was obtained when using a plastic film as an additional barrier material.

The examples of the practical use of polymeric materials with a volatile corrosion inhibitor according to the invention show their practical applicability and high efficiency. The period of protective ability against atmospheric corrosion of metals when using an inhibited polymer product of reusable use is much longer than when using inhibited materials (paper, film).

Inhibited materials cannot be used after deconservation, while the claimed inhibited polymer products can be used repeatedly.

Unexpected seems to be the obtained positive result on protecting the carburetor with a product in the form of a thread even without using an insulating screen.

Claims (1)

A polymeric inhibited reusable product based on polyethylene or polypropylene, characterized in that it is made of a material containing a volatile corrosion inhibitor (VCI) VNX-L-20 dispersed in a contact corrosion inhibitor FMT, in the following ratio, wt.%:
LIK VNH-L-20 1,2 FMT one Polyethylene or polypropylene 97.8