CS276640B6 - Compositions especially for the production of sealants, plastetonones and plastmalt - Google Patents

Abstract

The solution falls within the field of construction industry and is applicable in the production of sealants/plastic concretes and plastic mortars. The technical problem of increasing the stiffness/strength and surface hardness of the binder is solved. The essence of the solution is a composition consisting of 20 to 50 parts by weight of low molecular weight resin based on diane/bisphenol P or novolak resins, 50 to 80 parts by weight of medium molecular weight diane epoxy resins and 10 to

Description

The invention relates to a composition based on epoxy resins and 2-ethylhexyl acrylate, particularly suitable for the preparation of sealants, plastic concretes and plastic mortars.

Epoxy acrylate plastic concretes have gained considerable popularity in practice for their significant flexibility, resistance to internal stress and high impact resistance. Axis applicable in all fields of technology where vibrations are applied, rapid temperature fluctuations in the range from -40 ° C to +60 ° C or where high abrasion resistance is required. However, epoxy acrylate plastics and plastic mortars have a relatively low surface hardness and stiffness, which is related to the nature of the starting epoxy resins. Experience requirements to increase the rigidity could not be met without deteriorating processing parameters, in particular, ¹ viscosity and time zpracovatelnoeti. The solution to this technical problem has not yet been described in the available literature.

Based on the results of extensive and demanding research, we have now found a composition that has increased stiffness and surface hardness. The composition according to the invention consists of a mass of:

up to 50 parts of low molecular weight epoxy resin based on dian, bisphenol F, or nanocoating resins, of medium molecular weight. 324 to 400 and a medium epoxy functionality of 1.98 to 2.25 to 80 parts of a medium molecular weight medium molecular weight diane epoxy resin. 500 to 750 and up to 45 parts of 2-ethylhexyl acrylate.

The composition is stabilized against undesired polymerization of 50 to 300 ppm of hydroquinone, hydroquinone monomethyl ether, methyl di (tert-butyl) phenol and the like. The flow parameters and surface activity are adjusted as needed with known types of additives, such as silicones, ethoxylated alkylphenols, ethoxylated alcohols or fatty acids and the like. The compositions according to the invention have a viscosity at 25 DEG C. of 500 to 2,500 mPa.s and can be cured by known types of polyamine hardeners and their derivatives, in particular polyethylene polyamines, polypropylene polyamines, cycloaliphatic polyamines, their adducts with epoxides, aminoamides and the like.

Compared to the prior art, the materials formed by curing the compositions according to the invention have up to twice the tensile strength (40 to 80 MPa), significantly increased surface hardness (up to 96 ° Sh D), while maintaining good impact strength (20 to 50 k3 / m ² ). Elongation of 5 to 15% represents sufficient flexibility necessary to compensate for internal stresses after the action of fluctuating temperatures or vibrations.

Example 1

The composition is prepared by mixing 200 g of a low molecular weight bisphenol F-based epoxy resin of average molecular weight 326 and a mean epoxy functionality of 2.01, 800 g of a medium molecular weight diane epoxy resin of average molecular weight 525 and a mean epoxy functionality of 1.995, 110 g of 2-ethylhexyl acrylate. 0.25 g of methyl di (tert-butyl) phenol and 0.8 g of ethoxylated p-nonylphenol (containing 3 moles of ethylene oxide). The homogeneous composition has a viscosity of 2,030 mPa.s / 25 ° C. 100 g of the composition is cured with 9.5 g of diethylenetriamine. After 21 days, the cured mass has a tensile strength of 75.5 MPa, an elongation of 6.1% and an impact strength of 41.1 k3 / m ² . The composition resists exposure to xylene for 3 months. Surface hardness 95 ° Sh D. The composition prepared according to the prior art amisenim 900 g of an average e molecular oxide resin 525 with 100 g of 2-ethylhexyl acrylate, after curing with diethylenetriamine, gave a mass with a tensile strength of 42.6 MPa, an elongation of 6.5% and an impact strength of 14.7 k3 / m. The cured mass decomposes in xylene after 14 days.

Example 2

By mixing 500 g of a novolak epoxide with an average molecular weight of 398 and a mean epoxy functionality of 2.22, 500 g of a low molecular weight dianium-based epoxy resin with an average molecular weight of 388 and a mean epoxy functionality of 2.0, 400 g of 2-ethylhexyl acrylate are obtained.

CS 276 640 B6 composition with a viscosity of 925 mPa.s / 25 ° C. 100 g of the composition is cured with 11.5 g of diethylenetriamine. After 21 days, the cured mass has a tensile strength of 67 MPa, an elongation of 14.4% and an impact strength of 48.8 k3 / m. Resistant to xylene and 96% ethanol for 3 months.

Example 3

By mixing 500 g of a low molecular weight epoxy resin with a mean molecular weight of 398 and a mean epoxy functionality of 2.0, 800 g of a medium molecular weight epoxy resin with a mean molecular weight of 745 and a mean epoxy functionality of 1.99, 450 g of 2-ethylhexyl acrylate, 5 g of ethoxylated oleic acid (3 moles of ethylene oxide per molecule) and 0.15 g of silicone oil give a composition with a viscosity of 1,890 mPa.s / 25 ° C. 100 grams of composition is cured by ^8? 5 g of diethylenetriamine. After 21 days, the cured mass has a tensile strength of 45.9 MPa, an elongation of 12 ^. 1 and impact strength 22.6 k3 / m ² . The surface hardness is 93 ° Sh 0.

Claims (1)

PATENT CLAIMS Composition in particular for the production of sealants, plastic concretes and plastics, based on epoxy resins and 2-ethylhexyl acrylate, characterized in that it consists by weight of 20 to 50 parts of a low molecular weight epoxy resin based on dian, bisphenol F or novolak resins having an average molecular weight of 324 to 400 and an average epoxy functionality of 1.98 to 2.25 50 to 80 parts of a medium molecular weight dian-based epoxy resin having an average molecular weight of 500 to 750 and a mean epoxy functionality of 1.98 to 2.02 10 to 45 parts of 2-ethylhexyl acrylate.