RU2407760C2 - Self-extinguishing foamed polystyrene - Google Patents

Abstract

FIELD: chemistry.

SUBSTANCE: described is self-extinguishing foamed polystyrene with low content of bromated antipyrene, obtained from pre-foamed or foaming styrene polymer which contains bromated antipyrene and a phosphorus compound, characterised by that the phosphorus compound is a product of the reaction of mono- or diammonium phosphate with urea, taken in ratio phosphate: urea equal to (1.0-2.3) - (1-3), respectively, with the following ratio of components (pts. wt): styrene polymer 100, bromated antipyrene 1.0-1.5, product of reacting mono- and diammonium phosphate with urea 4.0-8.0.

EFFECT: endowing self-extinguishing polystyrene with higher fire resistance with low content of antipyrene.

4 cl, 1 tbl, 7 ex

Description

The invention relates to the chemistry of polymers, and, in particular, to the production of foamed (co) styrene polymers having the ability to quickly decay upon removal from the flame.

Styrene foam (co) polymers, usually called polystyrene foam (PPS), are widely used in various industries, especially in industrial and civil engineering. PPS plates are used as heat and sound insulating parts, as a substrate for sleepers when laying tram and railway tracks, for thermal insulation of pipelines, etc. In all areas of application, PPP is required so that it does not support combustion when removed from the flame, that is, it has self-extinguishing (fire resistance).

To give PPP self-extinguishing properties, a fire retardant (flame retardant) is added to it. The most common flame retardants for PPP are bromine-containing organic compounds, for example hexabromocyclododecane [see, for example, RU 2190638, M.cl. 7 C08J 9/04, 2002; EP 1616902 M.C. C08J 9/00, 2006; W02006082233, M.C. C08J 9/224, 2006 et al.]. However, the use of bromine compounds in foams is indisputable, they are highly toxic and in some cases cause allergies in the preparation of the polymer, as well as in its processing. In addition, in case of fire (fire), flue gases contain bromide compounds with high toxicity, especially hydrogen bromide. It should also be noted that the decomposition products of halogen-containing flame retardants are extremely aggressive and cause corrosion of the processing equipment, which complicates their use in mixing equipment.

Attempts have been made to use non-halide flame retardants in the production of expanded polystyrene.

Known self-extinguishing expanded polystyrene, including halogen-free flame retardant [EP 0834529, M.cl. C08J 9/00 1998]. As a flame retardant, it contains at least 12 wt.% A mixture of a phosphorus compound, such as red phosphorus, inorganic or organic phosphate, phosphite or phosphonate, and a metal-cleaving metal hydroxide, such as magnesium and aluminum hydroxides. In the examples given, polystyrene foam containing 15-20 wt.% A mixture of triphenylphosphate and magnesium hydroxide withstands the fire test B2 according to DIN41029-FR and corresponds to the fire resistance class G2 according to GOST 30244-94 "Building materials. Test methods for combustibility", i.e. removal from the flame of self-extinguishing PPS according to EP 0834529 has a self-combustion time of ≤20 s and loses mass <= 50%.

G2 fire resistance is insufficient for many applications of PPP. In addition, with a flame retardant content of 15-20 wt.%, It is difficult to obtain lightweight boards with low water absorption, such as those required in construction.

The closest set of essential features to the claimed is a self-extinguishing polystyrene foam with a low content of brominated flame retardant [US 6759911, M. Cl. ⁷ C08J 9/00, 2003]. The specified polystyrene foam includes 100 wt.% Polystyrene 2.5 wt.% Hexabromocyclododecane and up to 4 wt.% Phosphorus compounds selected from the group consisting of phosphates of the formula (RO) ₃ RO, phosphonates of the formula (RO) ₂ RPO, phosphinates of the formula (RO ) R ₂ PO, phosphine oxides of the formula R ₃ PO, phosphines of the formula R ₃ P and phosphonium salts of the formula R ₄ PX, mainly phosphates, and in particular triphenyl phosphate. According to the combustibility test, the self-extinguishing polystyrene foam according to US 6759911 withstands the B2 fire test according to the German standard DIN 4102 9Part 1 and has a self-burning time of 8-10 s (example 1-3).

The self-extinguishing polystyrene foam according to US 6759911 is obtained in an extrusion process in which hexabromocyclododecane and triphenylphosphite in the form of a melt are introduced into the polystyrene melt. The decrease in the concentration of hexabromocyclododecane below 2.5 wt.% (In the examples of 1.4 wt.%) Allows to obtain a foamed polymer with a good quality of the surface of the foam and a homogeneous structure, but its fire resistance is not higher than B2 DIN41029-FR (Russian standard G2 according to GOST 30244- 94), which is insufficient for many areas of application of expanded polystyrene.

Hexabromocyclododecane mixes well with PS melt, however, with insignificant (more than 5 ° С) fluctuations in the melting temperature or exceeding the residence time in the mixing equipment, the flame retardant automatically decomposes with the release of hydrogen bromide and, as a result, the equipment is corroded, which, of course, is a disadvantage of this invention .

The technical result to which the claimed invention is directed is to give self-extinguishing expanded polystyrene higher fire resistance with a lower flame retardant content of hexabromocyclododecane and a significant simplification of the process.

The specified technical result is achieved in that a self-extinguishing polystyrene foam obtained from pre-foamed or foaming styrene polymer with a reduced content of brominated flame retardant, including brominated flame retardant and a phosphorus compound, contains as a phosphorus compound the reaction product of mono- or diammonium phosphate with urea taken in the ratio phosphate : urea, equal to (1.0-2.3) :( 1-3), respectively, in the following ratio of components (parts by weight):

styrene polymer one hundred brominated flame retardant 1.0-1.5 mono- or urea diammonium phosphate 4-8

The phosphorus compound, which is the product of the interaction of mono- and diammonium phosphate or their mixture with urea, is obtained as described in our RU 2204582, M.cl. С09К 21/12, 2003

Initially, it was designed to give fire resistance to combustible cellulose-containing materials, such as wood, fabrics, paper, to which it gives high fire resistance (weight loss during combustion of less than 9%).

However, we found out that this tool cannot be used, for example, to impart fire retardant properties to wood-fiber boards (DPS), including chopped wood and polymer. In the case of DPS, in order to impart an appropriate fire resistance class, a higher concentration (at least 15 wt.%) Of flame retardant was required than for wood, fabric or paper, while the treated DPS had reduced physical and mechanical properties and increased water absorption. Therefore, the effectiveness of the specified flame retardant in the composition with a styrene polymer was unexpected.

Said phosphorus compound is readily soluble in water. To obtain a self-extinguishing polystyrene foam, a 15-45% aqueous solution of the agent is used. This solution is applied to the surface of polystyrene granules containing 1.0-1.5 parts by weight. brominated flame retardant and blowing agent. In the process of producing PPS, a solution of said phosphorus compound can be applied by simple spraying after the pre-foaming step before thermoforming and, in particular, before drying the pre-foamed granules. Excess water that has fallen into the granules with a solution of the phosphorus compound will be removed in the dryer.

Since pre-foamed particles have residual moisture (pre-foaming is carried out with hot steam), and require drying before the ripening stage, spraying a flame retardant with an aqueous solution does not introduce significant changes in the technological process and, in comparison with the prototype, is environmentally and technologically safer.

As a brominated flame retardant, self-extinguishing polystyrene foam may include hexabromocyclododecane, tetrobromobisphenol and other bromine-containing flame retardants, preferably hexabromocyclododecane.

Since the phosphorus compound is applied to the surface of the granules during their processing, the inventive expanded polystyrene can be obtained both by preparing PPP from expandable PS obtained by suspension polymerization and also from expandable PS granules obtained by saturation of a homopolystyrene melt (including those containing graphite or carbon black ) or styrene copolymers with a blowing agent in static mixers or in an extruder, followed by granulation of PS filaments containing a blowing agent, under conditions, I prevent their foaming. Homopolystyrene, high impact polystyrene, copolymers of styrene with esters of acrylic and methacrylic acids or acrylonitrile, as well as compositions of these polymers, in particular containing carbon black or graphite, can be used as styrene polymer.

It can be used to give fire resistance and other foams, if they are obtained according to the scheme: pre-foaming - ripening - thermoforming (PE, PP, etc.).

The invention is further illustrated by examples, but not limited to.

Example 1

PSV-SU (TU-2214-097-05766575-2002) self-extinguishing polystyrene granules pre-foamed with water vapor, obtained by suspension polymerization and containing 1.5 parts by weight hexabromocyclododecane, was treated with an aqueous 15% flame retardant solution containing monoammonium phosphate and urea, taken in a 1: 1 ratio. After processing, the content of phosphorus flame retardant in PSV was 4.5 wt.h. After drying and ripening in an intermediate tank, the material was sent for thermoforming. The resulting plates had a density of 35 kg / m ³ . Standard samples of the resulting plates were tested for combustibility according to GOST 30244-94, while the weight loss (degree of damage by weight) was 11%. Self-burning time - does not burn when the burner is removed from the flame (does not support combustion). The formation of burning droplets was not observed. The resulting material relates to combustible building materials of group G1.

Example 2 (control)

Expanded polystyrene was obtained as in example 1, however, the pre-expanded granules of PSV-SU were not treated with a phosphorus compound.

The resulting plates had a density of 35 kg / m ³ . Standard samples of the resulting plates were tested for combustibility according to GOST 30244-94, while the weight loss was 36 wt.%. Self-burning time - 18 s. The resulting material relates to combustible building materials of group G2.

Example 3

Self-extinguishing polystyrene foam was obtained as in example 1, but twice pre-foamed polystyrene granules were treated with a phosphorus compound. The phosphorus compound included diammonium phosphate and a 20% aqueous solution was taken for processing. The phosphorus content was 7.2 wt.h. The content of flame retardant and its composition are indicated in the table. Fire resistance material belongs to group G1.

Example 4

Self-extinguishing polystyrene foam was obtained as in example 1, however, expandable polystyrene of the PSV-B grade was used, obtained by saturating the molten polystyrene melt with a blowing agent in static mixers, containing 1.4 wt.h. hexabromocyclododecane. The content of flame retardant and its composition are indicated in the table. The material belongs to group G1.

Example 5

Self-extinguishing polystyrene foam was obtained as in example 1, but formed a "light" plate with a density of 11 kg / cm ³ . The content of flame retardant and its composition are indicated in the table. The material belongs to group G1.

Example 6 (control)

Self-extinguishing polystyrene foam was obtained as in example 1, but instead of a phosphorus compound, 8 parts by weight were added. urea. The content of flame retardant and its composition are indicated in the table. The material belongs to group G2.

Example 7 (control)

Self-extinguishing polystyrene foam was obtained as in example 1, but 8 parts by weight were added as a phosphorus compound. monoammonium phosphate. The material belongs to group G2.

Table 1 Examples No. p / p The content of hexabromocyclododecane wt.h. The content of phosphorus flame retardant in pre-expanded granules, parts by weight

The density of foamed plates, kg / m ³ Weight loss of the sample, wt.% Self-burning time, s one* 1,5 4,51 1: 1 35 eleven Does not support combustion. Fades out immediately (~ 0.1 s) 2 control 1,5 0 0 35 36 Material maintains combustion when removed from flame for 18 s 3 ** 1,5 7.2 2.9: 1 fifteen eighteen Does not support combustion. Fades out immediately (~ 0.2 s) four* 1.4 7.9 1: 3 25 10 Does not support combustion. Fades out immediately (~ 0.1 s) 5* 1,5 5.1 1: 1 eleven 19 Does not support combustion. Fades out immediately (~ 0.2 s) 6 control 1,5 8.0 0: 1 25 59 Material maintains combustion when removed from flame for 20 s 7 control 1,5 8.0 1-0 fifteen 68 Material maintains combustion when removed from flame for 20 s

Notes:
1. (*) monoammonium phosphate was used in the examples
2. (**) in the examples used diammonium phosphate
3. Flammability tests were carried out according to GOST “30244-94: Building materials. Combustibility test methods "

As can be seen from the above examples, self-extinguishing polystyrene foam with a low content of brominated flame retardant has a high fire resistance. The introduction of the inventive phosphorus compounds is simple; its action is effective.

Claims (4)

1. Self-extinguishing expanded polystyrene with a reduced content of brominated flame retardant, obtained from pre-foamed or foaming styrene polymer including a brominated flame retardant and a phosphorus compound, characterized in that as the phosphorus compound it contains the reaction product of mono- or diammonium phosphate with urea, taken in the ratio phosphate: urea: equal to (1.0-2.3) :( 1-3), respectively, in the following ratio of components, parts by weight:
Styrene polymer one hundred Brominated flame retardant 1.0-1.5 The interaction product is mono or diammonium phosphate with urea 4.0-8.0 2. The self-extinguishing polystyrene foam according to claim 1, characterized in that homopolystyrene was used as the styrene polymer. 3. The self-extinguishing polystyrene foam according to claim 1, characterized in that as the styrene polymer was used a polymer saturated with a blowing agent obtained by suspension polymerization. 4. The self-extinguishing polystyrene foam according to claim 1, characterized in that the styrene polymer was a polymer obtained by saturating the melt of the polymer with a blowing agent in static mixers or extruders, followed by granulation under conditions that prevent foaming.