SU655713A1 - Sealing compound - Google Patents

Description

The invention relates to seals for sealing joints in structures and waterproofing works. Thiocol based sealants are widely known for sealing joints in various structures and structures, including hydraulic structures 1. Of the thiokol-based sealer compositions described in the literature, the composition of ingredients is the closest to BITIZOL-G mastic, which includes thiokol, epoxy resin, bitumen, thinner, filler (carbon black and talc) and vulcanizing group 2. A disadvantage of the known composition is the presence there is a thinner in it, which eventually disappears. This leads to increased shrinkage of the polymer (H3%), as a result of which, however, there are strong internal stresses, leading to spontaneous exfoliation of the sealant from the sealing surface. In addition, this composition has an adhesion strength and durability, for example, in water. The purpose of the invention is to increase the adhesion strength and elasticity during operation. This is achieved in that the composition containing thiokol, epoxy resin, bitumen, vulcanizing group, includes as a filler aerusil, on the surface of which are alkoxy groups -OCjHs, -OCjHsNHCeHs and OCH2CH20H grafted with the following ratio of ingredients, weight.hp. resin 2-5 Bitumen 10-60 Aerosil with a modified surface 3-20 Vulcanizing group 13--35 Modified aerosol is obtained by processing highly dispersed | of the A-300 Aerosil grade (GOST 14922-69) with corresponding OP1-anic reagents For example, Aerosil DM-1 is obtained by treating conventional and growing dimethyldichlorosilane prc 250C with vapors followed by hydrolysis of residual chlorine (TU 6-18-185-74). It is characterized by the absence of surface hydroxyl groups, determined by IR spectroscopy over the 3750 cm band. The concentration of methyl groups grafted on the surface of the aerosol is limited to 0.7-0.95 mmol / g aerosil. Aerosil AM-2 is obtained by treating ordinary aerosil with iminophenylmethylenemethylated ethoxysilane with ZOO-ZZO S (TU 6-18-222-75). The content of functional groups on the surface of Aerosil AM-2 is characterized by the concentration of grafted imyu groups (NH). This value is determined by the method of titration in non-aqueous solutions. The concentration of grafted groups is limited to 0.3–1.2 mmop / g aerosil. Surface hydroxyl groups are absent. Characteristics of the modified aerosil are given in table. 1. (AM-l - aero-clips on the surface of which are inoculated with alkokoshnye rpymai of the type -OCjHs; AM-2-too, grush1Y-Ge2H5MNSbN5; AEG - the same, the group -OCHjCHjOH. Table 1 pH of 4% alcohol alcohol suspension 3.775.35 Bulk density, g / l 163 646.9 Moisture content,% 0.4400.68 Loss on ignition,% 3.027.98 18.0 Continuation of Table 1 Breakdown time hydrophobic cover in boiling water, hours 15024 - Hydrophobicity,% .99,999.9 Concentration of surface silanol pcfoxyl groups, mmol / g OUT-OUT- No ablation; JOT Sealants with azrosil AM-2 give the best results when tested both in air and in water, this Aerosnl can therefore be recommended for sealants used in hydraulic engineering. Sealants with Aerosil AM-1 and AEG are recommended for use in industrial civil engineering for the purpose of hermetic sealing 1 various prefabricated concrete structures, for example residential and industrial buildings and structures, where tightness. Sealants are prepared by mixing thiocol, epoxy resin, and aerosil, followed by grinding the mixture on a paint grinder. Then melted bitumen is added to the stirred mixture in small batches. By; The resulting mixture is scrubbed until a uniform, homogeneous mass is obtained. Prepare sealants according to the formulations given in Table. 2. Table 2

The resulting compositions are cured by adding a vulcanizing paste N 30 consisting of the following components, parts by weight: the vulcanizing agent is peroxide margshcha 100, the filler is kaolin 100, the diluent is dibutyl phthalate 50; water 100 and vulcanizing accelerator - dipheiylguanidine 10.

To test the adhesive strength of sealants to concrete with this thiol-bitumen composite, glue two cement tiles (5x5x2 cm) so that the connecting part

the sealant had a size of 5x2x2 cm. The samples prepared in this way were kept for 36 hours at room temperature and then for 45 hours at 60 ° C, with the result that the composition cured.

After curing, the strains are stretched to 50% of the original length (2 cm). In this condition, they are kept for 14 days in water JUIH in air.

Properties of sealants are given in table. 3 ..

Note: Adhesion strength, Pa; in the denominator - the relative elongation,%. In order to substantiate the limits of batching and aerosil dosing, the experiments with aerosil AM-i were carried out. The results are shown in Table. 4. Table 4 As can be seen from table. 3, the known sealant (formulation No. 1) has a low durability on the third day of its being in water in a stressed state (5 (yfr,} spontaneous exfoliation of the sealant from concrete occurs. At the same time, sealant on formulation 2, prepares ffl without razzhizhntel, lightens the stress state (50%) both in air and in water for 14 days, and the strength reduction in this case is decaying. Thus, an increase in adhesion and durability of sealants without thinners is obvious. Aerosil as The filler significantly reduces the adhesion and elasticity of the sealant. This leads to the fact that even with a slight deformation of the sealant it peels off from the concrete, which is negative for the sealant. The introduction of airborne seal with a modified surface in the sealant increases the airborne seal in 3-5 times, and in water - lj5-2 times, deformability, respectively, 3 and 1.5 times, while increasing durability. From the above, the advantage of the effectiveness of new sealants is obvious. The proposed sealants can be used for the installation of deformation shviv in prefabricated congruences, including on hydraulic equipment, for monolithing joints, for installation of roofless roofing coatings, as well as for other waterproofing and anti-corrosion coatings.

Claims (2)

1. Elshin I.M. Polymeric materials in irrigational construction. M., Kolos, 1974, p. eleven. 2. Authors certificate of the USSR N 382658, cl. From 08 to 13/00, 1971.