RU2606987C1 - Two-component sealing compound - Google Patents

Abstract

FIELD: chemistry.

SUBSTANCE: invention relates to chemistry, particularly, to sealing compositions, and can be used to seal double-glazed windows, in particular, as a curing polysulphide (thiocol) sealant applied on outer wall spacer block and binds along outline adjacent sheets of glass of double-glazed window. Two-component sealing compound consists of sealing component A and curing component B. Component A is based on polysulphide oligomer and contains glycidoxypropyltrimethoxysilane as adhesive additive, chemically precipitated chalk and plasticiser as filler. Component B is based on manganese dioxide and contains diphenyl guanidine and tetramethylthiuram disulphide as a vulcanisation accelerator and a plasticiser as filler. Before use, components A and B are mixed with each other at a ratio of 10:1 vol.pts, respectively. Both components also include titanium dioxide.

EFFECT: technical result provided using disclosed sealant is improved operating properties thereof.

3 cl, 3 tbl

Description

The invention relates to the field of chemistry, in particular to sealing compositions, and can be used to seal double-glazed windows, in particular, as a curable polysulfide (thiokol) sealant applied to the outer wall of the distance frame of the double-glazed window and connecting adjacent sheets of glass of the double-glazed window between them.

A two-component sealant is known from the prior art, consisting of a sealing component A based on a polysulfide oligomer containing glycidoxypropyltrimethoxysilane as an adhesive additive, a plasticizer, as well as chemically precipitated chalk as a filler, and a curing component B based on manganese dioxide containing diphenylmethyridamide and tetra-disulfonamide amide vulcanization accelerator and plasticizer as a viscosity regulator, which are mixed with each other before use wearing wt. part 10: 1, respectively (see patent RU 2447119, class C09K 3/10, C08L 81/04, publ. 04/10/2012). The disadvantages of the known composition are the relative fragility and poor thermal insulation characteristics of the resulting material.

The objective of the invention is to remedy these disadvantages. The technical result consists in improving the operational properties of a two-component sealant. The problem is solved, and the technical result is achieved by the fact that in a two-component sealant consisting of a sealing component A based on a polysulfide oligomer containing glycidoxypropyltrimethoxysilane as an adhesive additive, as well as chemically deposited chalk, filler and plasticizer as a viscosity regulator, and curing component B based on manganese dioxide containing diphenylguanidine and tetramethylthiuram disulfide as a vulcanization accelerator and plasticizer as reg insulator viscosity, wherein both components in the composition include titanium dioxide in the specified amounts, wherein the components A and B are mixed in a ratio of about. hours 10: 1, respectively.

Component A may additionally contain vinyltrimethoxysilane as an adhesive additive, and calcite is used as a filler in both components.

Thus, in contrast to the analogue, the proposed sealant consists of two components: a sealing component A and a curing component B, which are mixed together before use in a ratio of about. h. 10: 1, respectively, and also the composition of both components includes titanium dioxide.

Component A is based on a polysulfide oligomer, its share in component A is at least 25 wt.%, Due to which the crosslinking density is increased and the vapor permeability coefficient is reduced, and the sealant has high heat resistance and dynamic durability (the number of compression-extension cycles). Component A also contains glycidoxypropyltrimethoxysilane and vinyltrimethoxysilane as an adhesive additive, chemically precipitated chalk as a thixotropic agent and a plasticizer as a viscosity regulator. In addition, calcite (its share is 25-35% by weight) and titanium dioxide (its share is 20-30% by weight) are additionally introduced into component A. The selected ranges are confirmed by experimental studies and are determined by the particle size of calcite and titanium dioxide for the purpose of efficient layout. Component B is based on manganese dioxide. Its share in component B is at least 25% wt. Component B also contains diphenylguanidine and tetramethylthiuram disulfide as a vulcanization accelerator and a plasticizer as a viscosity regulator. In addition, calcite (its share is 30–40% wt.) And titanium dioxide (its share is 2–10% wt.) Are additionally introduced into component B. The selected ranges are confirmed by experimental studies and are due to the fact that titanium dioxide is resistant to acids.

In the proposed composition, part of the traditionally used carbonate filler in component A and carbon black in component B are replaced by titanium dioxide. The use of titanium dioxide is primarily due to the following:

- improving the heat transfer resistance of the edge zone of the glass by increasing the coefficient of heat transfer resistance of the sealant from 0.4 to 0.5 when using TiO ₂ ;

- increased value of the dispersion of titanium dioxide, which increases the overall strength of the vulcanized sealant;

- its optical properties: the refractive index of TiO ₂ is 2.73, which provides stable color characteristics, and with the ability to accurately establish the color (shades of gray) by changing the particle size of TiO ₂ .

By replacing a part of the carbonate filler, which is not resistant to the action of acids, with resistant to acids and alkalis, titanium dioxide increases the resistance of the obtained sealant to the aggressive effects of the atmosphere, and its strength properties are stored for a longer time.

Due to the denser arrangement of the filler in the composition, which is achieved by using fillers with different fractional compositions, the vapor permeability coefficient of the sealant of the second circuit decreases and the operability of the molecular sieve for a longer time is ensured.

Due to the lower coefficient of absorption of thermal energy, including in the infrared spectrum, the proposed composition of the sealant has a lower thermal conductivity, which reduces the coefficient of heat absorption by materials of the sealing joint.

By reducing linear heat loss due to thermal conductivity in the area where the distance frame and the layer of the proposed sealant offer a combination of reduced heat conductivity, the heat transfer resistance of the edge zone of the packet increases (the entire edge zone of the double-glazed window is the so-called “cold bridge” - the zone of increased heat conduction in the array that prevents heat transfer) .

Since the conductivity of polymers is highly dependent on the presence of impurities, the high content of conductive fillers (carbon black is most often used) significantly increases the conductivity of the polymer material. Their removal from the composition and replacement with TiO ₂ (dielectric) provides the sealant with dielectric properties.

As a result, the proposed composition of the sealant has significantly better operational properties than the known analogues, and provides an increase in the durability of the glass unit up to 50 conditional years of operation.

Example.

The following compounds were used as components of the sealant (see table. 1).

The tests showed that the obtained sealant has a dynamic indicator of durability of at least 7000 cycles. As a result of thermal exposure, the strength of the samples increased by 9%, the relative elongation decreased by 7%. Other characteristics are given in table. 2-3.

Based on the data obtained, it is possible to predict the performance of the sealant at temperatures up to 120 ° C.

Claims (3)

1. A two-component sealant consisting of a sealing component A based on a polysulfide oligomer containing glycidoxypropyltrimethoxysilane as an adhesive additive, as well as chemically precipitated chalk, a filler and a plasticizer as a viscosity regulator, and a curing component B based on manganese dioxide and diphenyl disulfide containing diphenylmethane and diphenylmethanide as a vulcanization accelerator and a plasticizer as a viscosity regulator, which are mixed with each other before use, I distinguish iysya in that the composition of the two components includes titanium dioxide in the specified amounts, wherein the components A and B are mixed in a ratio of about. hours 10: 1, respectively. 2. The two-component sealant according to claim 1, characterized in that component A additionally contains vinyltrimethoxysilane as an adhesive additive. 3. A two-component sealant according to claim 1, characterized in that calcite is used as a filler in the composition of both components.