RU2059683C1 - Sealing composition - Google Patents

Abstract

FIELD: sealing and tightening of building materials and glueing of tiles, linoleum, wood, metals and rubber. SUBSTANCE: sealing composition includes, mas.p.: butadiene-styrene thermoplastic rubber filled with polystyrene with content of filling polystyrene of 3-80 mas.% or butadiene-styrene thermoplastic rubber of brunch structure with content of fixed styrene of 27-31 mas.% 1000; adhesive 10.0-30.0; filler 40-70; thicotropic additive 3.0-8.0; antioxidant 0.5-1.5; copolymer isoprene (butadiene) with styrene of line structure or star-shaped structure 10-30; organic solvent 260-310. EFFECT: higher efficiency. 3 tbl

Description

 The invention relates to sealants and can be used for sealing and sealing building structures, as well as for gluing all types of building tiles, linoleum, wood, metals, rubber and other materials.

 Known thiol paste AM-5 for sealing joints in the outer walls of precast concrete structures, sealing interchangeable openings, for protection against atmospheric corrosion (A.L. Labutin, Anticorrosion and sealing materials based on synthetic rubbers L.Kh. 1982, p. 127- 128). The disadvantage of this mastic is its two-component nature (in addition to thiol, it contains epoxy resin and a curing paste based on finely dispersed manganese peroxide), low viability (1-6 hours). Common disadvantages of thiocol sealants include their low tear resistance, insufficient wear resistance, high residual deformation under compression and its rapid accumulation under constant load, as well as the lack of resistance to concentrated acids and alkalis (R.A.Smyslova, S.V. Kotlyarova. A reference manual on sealing materials based on rubbers. M. Chemistry, 1976, p. 12).

 The closest in technical essence and the achieved result is a sealing composition including butadiene-styrene thermoplastic elastomer DST 30, adhesive, for example, indencumarone resin, filler, thixotropic additive, antioxidant and organic solvent, which is used for sealing and waterproofing building structures, concrete joints, windows, doors and other mobile compounds (Edited by V.V. Moiseev, Thermoelastoplasts. M. Chemistry, 1985, p. 137).

 A disadvantage of the known sealant is the low heat, atmospheric and light resistance, as well as the cohesive strength and hardness of the coatings.

 An object of the invention is to increase the heat and weather resistance, cohesive strength and hardness of the sealing coating while maintaining high physical and mechanical properties, elasticity, wear resistance and adhesion.

The specified technical result is achieved by the fact that the sealing composition, including styrene-butadiene thermoplastic elastomer, adhesive, filler, thixotropic additive and solvent, contains thermoplastic elastomer butadiene-styrene thermoplastic elastomer filled with polystyrene, with a content of filling polystyrene of 3-80 wt. or styrene-butadiene-branched thermoplastic elastomer with a content of bound styrene of 27-31 wt. as an adhesive additionally contains a copolymer of isoprene (butadiene) and linear styrene (A-B-A-B-A-B-A-B-A, A-B-A-B-A-B-A; A-B -A-B-A-B; A-B-A-B-A, A-B-A-B, A-B-C-A-B-C-A, A-B-A-C-A -B-C-A, A-B-C-A-B-C-A-B-C-A, C-A-C-A-C-A or star-shaped structure (A-B-C-A- B) nX (A-B-A-B) nX, (C-A-C-A) nX, where
A block of polystyrene with a molecular weight of 5-30 thousand

 In the block of polyisoprene polybutadiene with a molecular weight of 2-30 thousand

 With a block copolymer of isoprene (butadiene) and styrene with a statistical distribution of styrene molecules in the chain and an increasing content of styrene in the block from 4 wt. at the beginning up to 99 wt. at the end of the block with a total styrene content in the copolymer of 40-70 wt.

X balance of the combining agent,
n 3-4, and an antioxidant in the following ratio of components, parts by weight

Styrene butadiene thermoplastic elastomer 100.0
Isoprene (butadiene) copolymer with styrene 10.0-30.0 Adhesive 10.0-30.0 Filler 40.0-70.0 Thixotropic additive 3.0-5.0 Antioxidant 0.5-1.5 Solvent 260, 0-310.0
The invention is confirmed by examples of specific performance.

 In the preparation of the compositions according to the examples, DST-30R20PS butadiene-styrene thermoelastoplast according to TUZ8.40370-91, DST-30R butadiene-styrene thermoelastoplast according to TU 38.40327-90 are used.

 As an adhesive, use a copolymer of isoprene (butadiene) with SKI-L40-C50 styrene according to TU 38.40376-92, inden-coumaron resin (OST 14.30-77), styrene-indene resin (TU 146.89-73), rosin (GOST 19.113-84 ), Octophor N (TU38-Ukrainian SSR-2-01-2-18-76).

The copolymers of butadiene (isoprene) with styrene are synthesized by sequential polymerization of one or two monomers simultaneously with the introduction of the next monomer or mixture after the exhaustion of the previous one. The structure of the copolymer is determined by the sequence of loading of the monomers, and the molecular weight of the blocks is controlled by the dosage of the monomers. Polymerization is carried out in inert hydrocarbon solvents at 20-100 ^{° C} in the presence of organic lithium compounds (e.g. n-butyllithium, sec-butyllithium, etc.).

 To obtain star-shaped polymers, the active polymer is treated with a four-functional combination with an agent, for example silicon tetrachloride, or dibutyl phthalate or tetraethoxysilane.

 Linear polymers deactivate alcohols, phenols. The polymers are seasoned with antioxidants and isolated from the solution by known methods.

 Chalk (GOST 12085-79), kaolin (GOST 19608-84) graphite (GOST 5279-74, 5420-74, 4596-76, 4404-78 are used as filler.

 As the solvent used butyl acetate, xylene and mixtures of gasoline BR-1, BR-2 (GOST 443-76) and ethyl acetate GOST 8981-78) in a ratio of 1: 1.

 Diafen-FP (TU6-14-817-76), Agidol-2, (TU38101617-76), etc. are used as an antioxidant.

 The composition is prepared according to the following procedure: thermoplastic elastomer, copolymer, adhesive, filler and antioxidant are sequentially loaded into an adhesive mixer and 1/3 part of the calculated amount of solvent is poured; the mixture is stirred until a homogeneous viscous mass is obtained, gradually adding the remaining solvent and stirring is continued. The sealant is ready for use after 6 hours.

 The prototype composition is prepared in the same way. DST-30 thermoelastoplast (TU 38.103267-80) is used as butadiene-styrene thermoplastic elastomer, indencumarone resin (OST 14.30-77), graphite (GOST 5279-74, 5420-74, 4596-76, 4404-78), aerosil ( GOST 14922-74), butyl acetate (GOST 8981-71).

 The sealant formulation of the examples are presented in table 1.

 The characteristics of the copolymers in table 2.

 Sealant samples for determining the tensile strength (cohesive strength) are prepared in metal forms coated on the inside with a release layer (for example, a 5% solution of polyisobutylene in gasoline). The inner part of the mold is filled with sealant and its upper surface is leveled with a plate with smooth edges.

Prepared in the forms of sealant samples was kept at 18-30 ^{° C} for 4 days. then determine the tensile strength, elongation and permanent deformation according to GOST 270-75.

 Similarly prepare samples to determine the heat resistance of the sealant. Heat resistance is evaluated by the change in conditional tensile strength with increasing temperature, which is determined according to GOST 270-75. The determination of adhesion by shear is carried out on steel samples according to GOST 1475959. The stability of the coating under atmospheric conditions is determined according to GOST 6992-68. The results of comparative tests of sealants in the examples are given in table 3. The characteristics of styrene-butadiene thermoplastic elastomer filled with polystyrene and a copolymer of isoprene (butadiene) with styrene are given in table 3.

 As can be seen from the data table. 1-3, coatings based on the sealant of the claimed composition have higher heat and weather resistance, cohesive strength and hardness along with high physical and mechanical properties, elasticity, adhesion and wear resistance.

Claims (1)

SEALING COMPOSITION, including styrene-butadiene thermoplastic elastomer, adhesive, filler, thixotropic additive, antioxidant and organic solvent, characterized in that it contains styrene-butadiene thermoplastic elastomer filled with polystyrene foam containing 80 polystyrene. or butadiene-styrene thermoplastic elastomer with a branched structure containing bound styrene 27 31 wt. and additionally, as an adhesive, a copolymer of isoprene (butadiene) with linear styrene
A-B-A-B-A-B-A-B-A, A-B-A-B-A-B-A, A-B-A-B-A-B, A-B-A- B-A, A-B-A-B, A-B-C-A-B-C-A, A-B-A-B-C-A-B-C-A, A-B-C- A-B-C-A-B-C-A, C-A-C-A-C-A
or star-shaped structure
(A-B-C-A-B) _n X, (A-B-A-B) _n X, (C-A-C-A) _n X,
where a block of polystyrene with mol. m. 5 30 thousand  In the block of polyisoprene (polybutadiene) with mol. m. 2 30 thousand C block copolymer of isoprene (butadiene) and styrene
with a statistical distribution of styrene molecules in the chain and an increasing styrene content in the block of 4 wt. at the beginning up to 99 wt. at the end of the block with a total styrene content in the copolymer of 40 to 70 wt. X balance combining n 3 4,
in the following ratio of components of the composition, parts by weight Styrene butadiene thermoplastic elastomer 100
Adhesive 10.0 30.0
Filler 40.0 70.0
Thixotropic supplement 3.0 8.0
Antioxidant 0.5 1.5
Isoprene (butadiene) copolymer with styrene 10.0 30.0
Organic solvent 260.0 310.0