RU2115674C1 - Plastisol on polyvinylchloride base - Google Patents

Abstract

FIELD: production of noise-insulation anticorrosion coatings for automobile body. SUBSTANCE: plastisol comprises, wt. p.: polyvinyl chloride, 100; di(2-ethylhexyl)phthalate, 80-100; diethylene glycol dimethacrylate, 40-60; white spirit, 20-30; kaolin, 100-160; cross-linking agent, 9-15; isopropylbenzene hydroperoxide, 0.4-0.6; 2,2′-diazoisobutyronitrile, 0.1-0.2. EFFECT: improved adhesion of plastisol with body steel being coated by water soluble undercoat; improved operation safety of coating. 2 tbl

Description

 The invention relates to the processing of polyvinyl chloride through dispersions, in particular the production of adhesive plastisols used for the manufacture of protective coatings in the automotive industry.

 The main indicator of the quality and operational reliability of the protective coatings of the bottom of car bodies is the adhesion strength of the gelled (thermoset) plastisol to the surface to be protected. Achieving the required level of adhesion is ensured by the introduction of adhesives in the composition of plastisols. One type of adhesive for PVC dispersions is unsaturated compounds capable of polymerization by the radical mechanism, in particular oligoester acrylates (OEA). It is believed that the three-dimensional polymerization of OEA in a paste-forming polyvinyl chloride matrix leads to an increase in coating hardness, which contributes to an increase in the adhesion level (G. Karpukhina et al. Effect of oligoester acrylates on the adhesive strength of plastisol coatings. - Plastics, 1985, N6, p. 24. 24 -26).

 The hardness of the coating is determined by both the temperature of dissolution of the polyvinyl chloride particles in the plasticizer and the degree of polymerization of OEA at the same temperature. An important role is played by the selection of an initiator generating free radicals. The speed and degree of polymerization of OEA depends on the type and content of the initiator. As a rule, the higher the polymerization rate due to an increase in the initiator concentration, the lower the degree of conversion of double bonds of the unsaturated compound (Shur A.M. High-molecular compounds. M: Higher school, 1966, p. 58-69). The commensurability of the rate of gelation of PVC particles in a plasticizer and the formation of a three-dimensional spatial network during adhesive polymerization are highly desirable.

 Known technical plastisol based on PVC grade D-11A, currently used by the automotive industry (Polyvinyl chloride plastic compound brand plastisol D-11A TU 6-01-538-76). Its formulation includes di / 2-ethylhexyl / phthalate, filler, structure-forming agent, pigment, diluent, lubricant, α-trimethacrylate - / ω / methacrylpentaerythritol / dimethacrylpentaerythritol adipate / and isopropylbenzene hydroperoxide.

The disadvantage of plastisol is the low adhesion to metal treated with soils - 1083 or VEP-010 at a gelatinization temperature of the coating 135-140 ^o C.

Closest to the proposed is plastisol, comprising the following components, wt.%:
Polyvinyl chloride - 100
Di- / 2-ethylhexyl / phthalate - 40-50
Phosphate Plasticizer - 40-60
White Spirit - 20-40
Oligoester acrylate - 20-60
Hydroperoxide - 0.3-0.6
Kaolin - 70-100
Bentonite - 15-30.6
Oligodivinylurethaneepoxide - 1-5
(RU, application 93030762, class C 08 L 27/06, 1996).

The adhesion of the coating from this plastisol at a temperature below 135 ^o C is at a satisfactory level.

 The low technical level of the analogue and prototype is due to the incompleteness of the polymerization of the adhesive system in gelled plastisol. The basis of water-soluble soils G-1083 and VEP-010 is an adduct of a mixture of epoxidian resins and aliphatic polyamine. Secondary amino groups of the substrate are typical inhibitors and deactivate the macroradicals formed during the polymerization of oligoester acrylate. As a result of this, the process of grid formation under given temperature-time conditions proceeds with a significant induction period. The conversion of double bonds of the adhesive is not sufficient to form a coating of the required stiffness, as a result of which the adhesion of the material is lower than its cohesive strength. It should be noted that increasing the concentration of the initiator does not lead to the desired result.

The purpose of the invention is to increase the adhesion strength of plastisol with metal treated with primers G-1083 and VEP-010 at temperatures below 140 ^o C.

The proposed plastisol contains the following components, parts by weight:
Polyvinyl chloride - 100
Di (2-ethylhexyl) phthalate - 80-100
Triethylene glycol dimethacrylate - 40-60
White Spirit - 20-30
Kaolin - 100-160
Structuring agent - 9-15
Isopropylbenzene hydroperoxide - 0.4-0.6
2,2'-diazoisobutyronitrile - 0.1-0.2
The goal is achieved by using a combination of initiators that differ in the decomposition temperature and activity of the primary radicals in the chain transfer to polymer reactions, which makes it possible to realize a regular cross-linking network in the plasticized PVC matrix with a minimum proportion of unreacted oligomer.

 The following components are used in the plastisols according to the invention: paste-forming polyvinyl chloride (GOST 14039-78), di (2-ethylhexyl) phthalate (GOST 8728-88), triethylene glycol dimethacrylate (TU 6-16-2010-82), white spirit (GOST 3134 -78), isopropylbenzene hydroperoxide (TU 38.402-62-121-90), 2,2'-diazoisobutyronitrile (TU 113-03-365-82).

 Lyophilized montmorillonites can be used as a plastisol structurant: organophilic drilling fluid builder (TU 39-0148052-001-88), benton-34 (Hungary), T-40 cleton (USA), calcium stearate (TU 6-09-4104- 75).

 As part of the plastisol, other components can additionally be used that do not affect the achievement of a positive effect. For example, chloroparaffins - as a diluent and viscosity stabilizer; pigments - to contrast the plastisol with the color of the body primer and ease of dispersion.

 Example 1. In the mixer with the anchor mixer load the liquid components of plastisol, 2,2'-diazoisobutyronitrile and builder. Mixing is carried out for 10 minutes

 Next, half of the total kaolin charge is charged and mixed for 20 minutes, after which polyvinyl chloride is added to the suspension. Homogenization of the paste is carried out for 30 minutes, and then the rest of the kaolin is introduced portionwise and mixing is continued for 60 minutes.

The viscosity of plastisols was determined on a rotational viscometer "Brunfeld" type RVT with an impeller N7 and a spindle speed of 5 rpm at 25 ± 5 ^o C.

The adhesion strength of plastisol with plates of body steel was determined by the method of the known TU. The tests were carried out on phosphated plates coated with G-1083 or VEP-010 primer. Plastisol was applied to the surface of the plates using a template with a layer of 0.5 mm. Plates with plastisol samples were placed in a heating cabinet heated to a predetermined temperature, kept for 30 min, and then cooled to room temperature. Adhesion was assessed by the nature of the peeling of the thermoset plastisol film cut at the edges: adhesive — peeling of the material from the substrate; cohesive - the destruction of the material, but not its separation from the substrate. According to regulatory requirements, the adhesion of the coating to the ground should be higher than the strength of the coating itself, that is, peeling should be cohesive. The gelatinization temperature of the plastisol was 130, 135, 140 or 145 ^o C.

The strength of the films gelled at 130 ^° C for 30 minutes was determined on a tensile testing machine with a lower clamp speed of 100 mm / min on the samples in the form of double-sided blades.

 The composition and properties of plastisols and thermoset films are given in table. 1 and 2.

As follows from the presented results, the combination of a hydroperoxide initiator with 2,2'-diazoisobutyronitrile within the stated limits allows for reliable adhesion of plastisol to body steel coated with water-soluble primers G-1083 or VEP-010, at a gelatinization temperature of the coating not lower than 135 ^o C.

A decrease in the concentration of the initiating system reduces the adhesion of the films to the substrates. The increase in the content of 2,2'-diazoisobutyronitrile more than 0.2 wt. including accompanied by swelling of the coating and the deterioration of its strength due to increased release of gaseous nitrogen. In the absence of the above additives (prototype), the required level of adhesion is achieved only at a gelatinization temperature of 140 ^o C and above.

 The high adhesive ability of the proposed plastisol provides increased quality and operational reliability of the protective coatings of the bottom of car bodies. It should be noted that water-soluble soils G-1083 and VEP-010, applied to bodies by electrophoresis, are currently the most promising in the production of Volzhsky and Gorky automobile plants. In particular, two VAZ conveyor lines are already operating on G-1083 soil.

Claims (1)

Polyvinyl chloride-based plastisol, including polyvinyl chloride, di / 2-ethylhexyl / phthalate, oligoester acrylate, white spirit, kaolin, structurant and isopropylbenzene hydroperoxide, characterized in that it additionally contains triethyltrimethyrothio-di-tri-di-tri-di-tri-di-tri-di-tri-di-tri-di-tri-dimethyryl the following ratio of components, parts by weight:
Polyvinyl chloride - 100
Di / 2-ethylhexyl / phthalate - 80 - 100
Triethylene glycol dimethacrylate - 40 - 60
White Spirit - 20 - 30
Kaolin - 100 - 160
Structuring agent - 9 - 15
Isopropylbenzene hydroperoxide - 0.4 - 0.6
2,2'-diazoisobutyronitrile - 0.1 - 0.2

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