SU458563A1 - The method of obtaining self-extinguishing copolymers - Google Patents

Description

one

This invention relates to a method for producing self-extinguishing methacrylic copolymers that can be used as fire-resistant (self-extinguishing) organic glass, transparent and cloudy.

A known method for producing flame retardant (self-extinguishing) polymers by copolymerizing a mixture of methacrylic monomers with chloroalkyl phosphates in the presence of a polymerization initiator.

However, the known method allows to obtain self-extinguishing methacrylic polymers with a softening temperature, as a rule, not higher than 75-85 ° C (according to VIKA). Such low softening temperatures limit the range of use of the proposed materials in the temperature range not exceeding 55–05 ° C (it is known that the temperature range of the form-stability of polymers is approximately 20 ° C below the softening temperature). In addition, flame-retardant (self-extinguishing) methacrylic polymers obtained by introducing chloralkyl phosphates, such as trichloroethyl or trichloropropyl phosphates, as quenchers, are damped only 5-7 minutes after being removed from the flame.

At the same time, being in the fire zone, the material aktivno selects burning drops. Burning drops are an additional

fire hazard and their presence in a number of cases is unacceptable. The behavior of the polymer in the flame and after its removal from the fire zone is a very important indicator of the material.

The purpose of the invention is to increase the fire resistance and softening temperature of the copolymer.

For this purpose, bis- (p-chloroethyl) -a-bromo-1-nylfsusphonate is used as an unsaturated phosphorus-containing monomer in an amount of 15-25% by weight of methacrylic monomers.

The proposed method allows to obtain

flame retardant self-extinguishing methacrylic

softening point copolymers

114-138 ° C, burning without droplets.

Example 1. To a mixture of methacrylic monomers consisting of 90 wt. % methyl methacrylate (MMA) and 10 wt. % methacrylic acid (MAC), add 15 weight. % bis- (p-chloroethyl) -a-bromovinylphosphonate and 0.2 weight. % dicyclohexyl peroxide The mixture is poured into a silicate glass mold and polymerized in two stages at 20T and 120 ° C, respectively.

Example 2. To a mixture of methacrylic monomers consisting of 90 wt. % MMA and 15 wt. % MAC, add 20 wt. % bis- (p-chloroethyl) -a-bromovinylphosphonate and 0.25 weight. % dicyclohexylperoxycarbonate. The polymerization are in the mode specified in example 1.

Example 3. To a mixture of methacrylic monomers consisting of 75 wt. % MMA and 25 wt. % MAC, add 15 wt. % bis- (p-chloroethyl) -a-bromo1-vinylphosphonate and 0.02 wt. % dicyclohexylperoxycarbonate. Polymerization is carried out in two stages at 50 ° С and 130 ° С, respectively.

Example 4. To a mixture of methacrylic monomers consisting of 75 (wt.% MMA and 25 wt.% MAK), 20 wt.% Bis- (p-chlOrethyl-) - - | broM1ivil phosphonate and 0.025 wt.% Dicyclohexylperoxydic , bonata. The polymerization is carried out in two stages at 50 ° C and 120 ° C, respectively.

The properties of the methacrylic copolymer are given in the table.

The burning feature in all the examples is without dropping out; light transmission (GOST 9784-61) -91%.

Table

Subject invention

The method of obtaining self-extinguishing copolymers by copolymerizing a mixture of meta-kryl monomers and a halogen-containing 20 unsaturated phosphonate in the presence of a polymerization initiator, characterized in that, in order to increase the fire resistance and softening temperature of the copolymer, as the halogen-containing unsaturated

25 phosphonate use bis- (p-chloroethyl) -a-bromovinyl phosphonate in the amount of 15-25% by weight of methacrylic monomers.