RU2206253C1 - Compound for applying protective coating to mitten - Google Patents

Abstract

FIELD: individual protecting facilities. SUBSTANCE: compound comprises polyvinyl chloride emulsion, mixture of dibutyl phthalate and dioctyl phthalate as plasticizer, and titanium dioxide as filler. Compound is used for protecting people from aggressive media, in particular, for coating mitten of workers employed in oil fields. Mitten is treated with compound at reduced treatment temperature. EFFECT: reduced costs by decreased number of components, simplified process for applying compound to mitten. 2 tbl

Description

 The invention relates to the production of personal protective equipment against aggressive environmental influences, in particular, to the production of protective mittens for working in the oil fields.

It is known to use a polymer composition for the manufacture of artificial leather with intermittent coatings for the protection of hands, containing emulsion polyvinyl chloride, dioctyl phthalate, dioctyl sebacinate, spindle oil, chalk, calcium stearate, with the aim of increasing strength, tear resistance, manufacturability and reducing abrasion while reducing consumption of the composition, it additionally contains alumina with a particle size of 0.1-5 microns, rosin, chloroparaffin, magnesium oxide and chromic acid stearate when em component ratio, wt.% [v. copyright certificate SU 1650665 from 12.30.88, class. C 08 L 27/06]:
Emulsion polyvinyl chloride - 41.7-60.8
Dioctyl phthalate - 30.4-31.3
Dioctylsebacinate 3.1-8.3
Chloroparaffin - 3.0-4.2
Spindle oil - 0.3-4.2
Chalk - 0.6-5.0
Magnesium Oxide - 0.6-2.5
Rosin - 0.1-0.4
Calcium Stearate - 0.6-1.2
Alumina 0.2-0.3
Chromic stearate - 0.3-0.9
The advantages of the invention are the low abrasion of the coating and the processability.

 The disadvantage of the composition used is that the composition is difficult to prepare, is expensive, due to its multicomponent nature. The composition is economically disadvantageous due to its instability - the viability of the composition composition is only 84 hours. The coating of the product is fragile due to the low strength characteristics.

 Closest to the proposed composition in technical essence and the achieved result is a composition for applying a protective coating on the gloves, including polyvinyl chloride, plasticizer and disperse dye (see GB patent 1176957 A, class A 41 D 19/00, 1970, 1 sheet).

The composition proposed by us differs from the known one in that instead of a dispersed dye it contains a filler titanium dioxide, emulsion polyvinyl chloride as a polyvinyl chloride, and a mixture of dibutyl phthalate and dioctyl phthalate as a plasticizer, with a ratio of components, wt.%:
Emulsion polyvinyl chloride - 44.25-47.4
Dioctyl phthalate - 4.65-11.1
Dibutyl phthalate - 44.25-47.4
Titanium Dioxide - Else
The advantages of the known composition are the surface of the coating without a sliding effect and an acceptable duration of use.

The disadvantage of using the composition is multicomponent due to the content of five components in the composition, low technology due to high process temperatures (180-210 ^o C), the complexity of the coating technology on the gloves.

An object of the invention is to simplify the technology of applying a protective coating on the gloves by reducing the number of technical operations, increasing the manufacturability of the coating process by reducing the processing temperature of the gloves to 140 ^o C, as well as reducing material costs by reducing the ingredients of the component composition.

 The problem is achieved by the described composition for applying a protective coating on the gloves, including polyvinyl chloride and plasticizer.

New is that the composition additionally contains a filler - titanium dioxide, emulsion polyvinyl chloride as a polyvinyl chloride, and a mixture of dibutyl phthalate and dioctyl phthalate as a plasticizer, in the following ratio, wt.%:
Emulsion polyvinyl chloride - 44.25-47.4
Dioctyl phthalate - 4.65-11.1
Dibutyl phthalate - 44.25-47.4
Titanium Dioxide - Else
The technology developed by us makes it possible to lower the temperature of the process due to the content of emulsion polyvinyl chloride in the composition, since the melting temperature of emulsion polyvinyl chloride is 140-150 ^o C, to simplify the coating technology on the gloves by reducing the number of technical operations (single dipping gloves in the prepared solution), reduce material costs by reducing the component composition.

Coating the mittens with the proposed composition makes it possible to increase the strength of the coating, its resistance to aggressive environments (oil, hydrocarbon solvents, alkalis, acids). Moreover, the coating has high strength characteristics, a long service life and remains flexible at temperatures from +30 ^o C to -20 ^o C.

The proposed composition is a paste with a density of from 1.13 to 1.20 g / cm ³ and a viscosity of 1000-6000 MPa • s. To prepare the composition, the following materials are used.

1. Emulsion polyvinyl chloride (PVC) (GOST 14039-78), white powder, molecular weight 300-400 thousand, glass transition temperature 75-80 ^o С, at temperatures above 140 ^o С, PVC noticeably decomposes with the release of hydrochloric acid НС1, resistant to moisture. Emulsion polyvinyl chloride is obtained by emulsion polymerization of vinyl chloride. PVC is made from a milk-like emulsion through the use of a spray dryer.

2. Dibutyl phthalate and dioctyl phthalate (plasticizers) (GOST 8728-58). Dibutyl phthalate (DBP) is a yellowish oily liquid, melting point -35 ^o С, boiling point 340 ^o С, flash point 175 ^o С, density 1,045-1,050 g / cm ³ , viscosity 19-23 MPa • s, solubility in water 0 , 04%, MPC 0.5 g / m ³ . Dioctyl phthalate (DOP) - a clear liquid, melting point -50 ^o C, boiling point 231 ^o C, flash point 219 ^o C, density 0.982 g / cm ³ , insoluble in water, MPC 0.5 g / m ³ .

3. Filler - titanium dioxide - a white crystalline powder, melting point 1841 ^o C; boiling point 3000 ^o C; density 4.18-4.25 g / cm ³ ; insoluble in water; chemically inactive; resistant to acid and alkali solutions.

 4. Mittens - cotton gauntlets - TU 17-67-10747-86, article 1890 the bike is harsh; TU 17-60-5890-84, article C4788, cotton fabric, severe cloth.

The composition was prepared as follows:
1) mixing PVC and a mixture of plasticizers in a certain ratio;
4) homogenization of the filler and the mixture of plasticizers at a certain ratio on the paint;
5) obtaining a composition by mixing the resulting mixtures of claim 1 and claim 2;
4) the ripening of the paste;
5) evacuation of the composition.

Emulsion polyvinyl chloride was introduced in 0.5 calculated weight by weight of a mixture of dibutyl phthalate and dioctyl phthalate and mixed in a paddle-type mixer until a homogeneous mass was obtained at a temperature not exceeding 35 ^o С (since the composition thickens at a temperature above 35 ^o С).

The filler was mixed with the remaining 0.5 calculated weight amount of the mixture of dibutyl phthalate and dioctyl phthalate on the paint grater at a temperature not exceeding 25-30 ^o C (in order to prevent thickening of the composition).

Then the resulting mixture was mixed in a mixer of a blade type to a homogeneous mass for 30-60 minutes at a temperature of 25-30 ^o C (in order to prevent thickening of the composition).

 Then the composition was poured into closed containers (tanks) for maturation (24 hours). The ripening mechanism consists in the following: emulsion polyvinyl chloride particles slowly swell, taking in a plasticizer. The free plasticizer disappears, and the swollen grains of emulsion polyvinyl chloride are in contact, forming a homogeneous system.

 Then the composition was evacuated to remove air bubbles in order to improve the quality of the coating of mittens.

 Such a mass can be stored up to 5 days, then its viscosity increases, which complicates the process of coating the gloves. The viscosity of the composition was regulated by the addition of a mixture of dioctyl phthalate and dibutyl phthalate.

 The following criteria were used to determine the optimal composition for coating mittens: composition viscosity, density, water permeability, resistance to oil and oil products, frost resistance, tensile strength at break and bond strength of the coating with the fabric base.

 The results of laboratory tests are given in table 1.

 The viscosity of the compositions was determined on the installation "Polymer RPE-1M." The content of emulsion polyvinyl chloride and a mixture of dibutyl phthalate and dioctyl phthalate in the composition is regulated by the viscosity of the composition, which should not be lower than 1500 MPa • s and not higher than 6000 MPa • s. An increase in the viscosity of the composition of more than 6000 MPa • s is not technologically advanced and leads to the formation of thick with smudges and weak coatings. Also, at high viscosity, the composition becomes non-fluid, which complicates the process of coating the gloves. With a decrease in the viscosity of the composition below 1500 MPa • s, coating is applied to the inside of the product, which is unacceptable by technical conditions and from the point of view of safety.

 The density of the compositions was determined by the pycnometric method.

Introduction to the composition of plasticizers - dioctyl phthalate and dibutyl phthalate, makes it possible to reduce the fragility of the coating at subzero temperatures and operate the product at ambient temperature up to -20 ^o C.

 The introduction of filler in the composition for coating mittens increases the frost resistance of the product, roughens the product, increases the bond strength with the coated fabric.

Laboratory studies have shown (see table 1) that the optimal content of the components is as follows, wt.% (See table 1, paragraphs 14-16):
Emulsion polyvinyl chloride - 44.25-47.4
Dioctyl phthalate - 4.65-11.1
Dibutyl phthalate - 44.25-47.4
Titanium Dioxide - Else
The coating on the mittens was carried out as follows: cotton mittens (TU 17-67-10747-86, the article 1890 is harsh; TU 17-60-5890-84, the article C4788, the cotton fabric is severe) are put on a cassette (metal frame in the form of mittens) in a straightened form. Then the gloves were immersed in the prepared composition to a height that does not reach its edges by 2-3 cm, in order to prevent the composition from getting inside the gloves. The mittens were removed from the composition, the excess composition was allowed to drain for 10-15 minutes, the coating was dried for 1-3 hours at room temperature (15-25 ^° C).

The coating thickness should not exceed 1.0 mm and not less than 0.7 mm. Then the gloves were placed in a heat cabinet and subjected to heat treatment for 10-20 minutes at a temperature of 140-150 ^o С (it is not recommended above, since decomposition of emulsion polyvinyl chloride begins at a temperature of more than 150 ^o С). To ensure high quality coatings, it is necessary that the plasticizer is evenly distributed in emulsion polyvinyl chloride. At elevated heat treatment temperatures, the surface of the swollen primary particles of emulsion polyvinyl chloride is fused. Ready gloves were removed from the oven, allowed to cool at room temperature for 1-2 hours. Then the gloves were removed from the cassettes and visually rejected.

 The finished gauntlets coated with the composition were tested for strength, resistance to water, oil, and other solvents, and the influence of subzero temperatures. The results of the study are given in table.2.

The results of the study showed that when using the developed composition when applied to the gloves, high strength and adhesion to the fabric, the strength of the protective layer itself at a wide temperature range (from +30 ^o С to -20 ^o С), and the resistance of the coating to aggressive environments are ensured.

From the results of the experiments we can see a significant decrease in the temperature of the heat treatment process of mittens (up to 140 ^o C), because emulsion polyvinyl chloride was used, thereby we increase the manufacturability of the process of applying a protective coating to the gloves; reducing the number of technical operations, thereby we simplify the process of coating mittens; reduction of ingredients of the component composition, thereby we reduce material costs.

Claims (1)

The composition for applying a protective coating to the gloves, including polyvinyl chloride and a plasticizer, characterized in that it additionally contains a filler - titanium dioxide, emulsion polyvinyl chloride as a polyvinyl chloride, and a mixture of dibutyl phthalate and dioctyl phthalate in the following ratio, wt.%:
Emulsion polyvinyl chloride - 44.25 - 47.40
Dioctyl phthalate - 4.65 - 11.10
Dibutyl phthalate - 44.25 - 47.40
Filler - Rest

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