DE2900881C3 - Flame-retardant thermoplastic bituminous melt - Google Patents

Description

25th

The subject of patent application P 27 55 682.7-44 -to are flame-retardant polyolefins and hydrogen halides containing, thermoplastic bituminous melt masses with a wide plastic temperature range, consisting of

a) 5 to 50 percent by weight of a largely amorphous poly - «- olefin or poly -« - olefin mixture with viscosity numbers] from 5 to 400 cmVg and ether-soluble proportions over 60%, with up to half the weight of these polyolefins can be replaced by an elastomer,

b) 5 to 50 weight percent of an optionally drying oil-containing hydrocarbon oil, which can be a polybutene oil or a distillation residue of the Cyclododecatrienherstellung or a mixture of two _5J,

c) 20 to 85 percent by weight of a bitumen,

d) 1 to 15 percent by weight of a chlorinated paraffin with a chlorine content of 48 to 58% and / or an aromatic bromine compound, _M

e) 03 to 10 percent by weight of a flame retardant,

f) 0 to 40 percent by weight of a conventional additive and

g) 0 to 5 percent by weight of an _M surfactant.

In the formation of the weather of these masses it has now been found that one obtains improved flame-retardant thermoplastic bituminous melts if one is used as Component d) 1 to 10 percent by weight of a chlorinated paraffin with 15 to 30 carbon atoms in the carbon chain and with a chlorine content of over 58% to 75%, these organic halogen compounds surprisingly influence the compatibility and the improved properties of these bitumen mixtures not. The masses are neither brittle nor fragile. This was all the more surprising since it was made from the DE-PS 23 13 334 it was known that chlorinated paraffins with chlorine contents above 60% polyolefin-containing masses make brittle.

The compositions of the invention have a wide range of uses, such as. B. in the construction sector, in equipment and vehicle construction. They have excellent adhesion and elongation. The adhesion of the compositions is so good that no primer is required Due to the good thermal resistance, the compositions are easily processed up to temperatures of about 220 ⁰ C.

In the construction sector, the melting masses are used for gluing and gluing waterproofing membranes, such as B. off Bitumen, plastics and elastomers are used. They are also used in the construction sector as coating compounds suitable Furthermore, sealing membranes can also be produced from them.

The hot melts and adhesives have the advantage that they are particularly flame-retardant or flame-retardant. are self-extinguishing and are resistant to flying sparks and radiant heat. Surprisingly becomes even the flame retardancy of waterproofing membranes, which are not flame retardant themselves are improved when they are glued to the hot melt compositions according to the invention.

example 1

30 parts by weight of a largely amorphous polypropylene with a viscosity number J of 55 cm ³ / g, an ether-soluble proportion of 86% and a melt viscosity of 25 00OmPas / 190 ° C (by-product of the production of isotactic polypropylene) and 46 parts by weight of a bitumen B 200 with a softening point (ring and ball) of 39 ° C, a breaking point (Fraass) of -15 ⁰ C and a penetration of 170 '/ are iomm in 20 parts by weight of a Polybutenöles having a viscosity of 80 00OmPa · s and a molecular weight of 910, containing no low-boiling components boiling at 2000 Pa below 150 ⁰ C, dissolved at a temperature of 180 ° C. Subsequently, will; 3 parts by weight of a chlorinated paraffin with 16 to 22 - on average 18 - carbon atoms in the carbon chain and with a chlorine content of 69% and 1 part by weight of antimony trioxide are added and distributed homogeneously. An easily processable mass is obtained which ^{is stable up to temperatures of about 220 °} C. and meets the requirements of DIN 4102, part 7 and 53 438. The mass has the following properties:

Softening point (ring and ball) 155 ⁰ C, breaking point (Fraass) -34 ⁰ C, penetration 98 '/ io mm and a plastic temperature range of 189 ° Q

Example 2

To a mixture of 21 parts by weight of a largely amorphous polypropylene with a viscosity number ] of 40 cmVg, an ether-soluble proportion of 90% and a melt viscosity of 20,000 mPa ■ s / 170 ° C (by-product of the production of isotactic

Shem polypropylene), 20 parts by weight of a y
tenöles having a viscosity of 2400OmPa · s / 20 ° C and contains a molecular weight of 770, the no leicbtsiedenden components which boil at 2000 Pa at 15O ⁰ C, and 53 parts by weight of bitumen B 300 having a softening point (ring and ball) of 34 "C ₁ a breaking point (Fraass) of -17 and a penetration of 235Viomm be at 170 ⁰ C 4 parts by weight of a chlorinated paraffin having 18 to 28 carbon atoms - average of 22 carbon atoms - in the carbon chain and having a chlorine content of 70 % and 2 parts by weight of antimony trioxide are added and mixed evenly. The mass is then kept at a temperature of 190 ° C and poured at this temperature in a hot liquid state onto a roof surface to be sealed and distributed with sliders or applied with brushes. homogeneous, plastic roof covering. It adheres well to concrete, stone, masonry. Wood, metal, bitumen and plastics. It can be used on dry surfaces oh ne primer can be used. The compound meets the requirements of DIN 53 438 (preliminary test) for flame resistance and the requirements of DIN 4102 Part 7 for resistance to flying sparks and radiant heat. The mass has the following property values:

Softening point (ring and ball) 67 ° C, breaking point (Fraass) -25 ° C, penetration 163 '/ iomm, more plastic Temperature range 92 ° C jo

If an additional 1.0 part by weight of a nonylphenol polyglycol ether is added to the mass, one obtains a mass that works well on damp underground adheres.

Example 3

To a mixture of 38 parts by weight of a substantially amorphous polybutene-1 having a viscosity number J of 35 cmVg, an ether-soluble content of 94% and a melt viscosity of lOOOOmPa · s / 170 ⁰ C (by-product of the production of isotactic polybutene-1), 18 parts by weight a distillation residue from cyclododecatriene production (CDT residue) with a density of 033 g / cm ³ , a viscosity of 140OmPas / 25 ° C and a molecular weight of 500 and 35 parts by weight of the bitumen B 300 used in Example 2 are at 200 ⁰ C 6 , 0 parts by weight of a chlorinated paraffin with 15 to 18 - on average 16 - carbon atoms in the carbon chain and with a chlorine content of 65% and 3.0 parts by weight of antimony trioxide. The result is a compound that is stable up to temperatures of 210 ° C. and can be easily processed at these temperatures. The compound meets the requirements of DlN 4102 Part 7 and DtN 53 438 (preliminary test). The mass has the following properties: softening point (ring and ball) 156 ° C, breaking point (Fraass) -37 ° C, penetration 116V10 mm, plastic temperature range 193 ° C.

Example 4 _M

30 parts by weight of a largely amorphous polybutene-1 with a viscosity number J of 40 cm ³ / g, an ether-soluble fraction of 96%, obtained by polymerizing butene-1 at 90 ° C. with the aid of a contact made from TiCl ₃ · 0.3 AlCl ₃ and Al (ICtH ₉ J ₃ , and 40 parts by weight of the bitumen B 200 used in Example I are mixed in a mixture of 10 parts by weight of the CDT residue used in Example 3, 8 parts by weight of a polybutene oil with a viscosity of 50,000 mPas / 20 ° C and having a molecular weight of 850 that no low-boiling components boiling at 2000 Pa at 15O ⁰ C, dissolved at 150 ° C then, 8 parts by weight of a chlorinated paraffin having 18 to 28 -. on average 22 - carbon atoms in the carbon chain and a chlorine content of 62% and 4 parts by weight of tin dioxide are added.A very easily workable mass is obtained, which is stable up to a temperature of 200 ° C and meets the requirements of DIN 4102 and 53 438. The mass has fo The following properties:

Softening point (ring and ball) 147 ° C, breaking point (Fraass) -38 "C, penetration UO '/ iomm, more plastic Temperature range 185 ° C

Example 5

In a mixture of 15 parts by weight of a residue from cyclododecatriene production, a density of 033 g / cm ³ , a viscosity of 1000 mPas / 25 ° C. and a molecular weight of 450, 10 parts by weight of a polybutene oil with a viscosity of 40,000 mPas / 20 ° C and a molecular weight of 8Ϊ0, 3 parts by weight of linseed oil and 3 parts by weight of a polybutadiene oil with a viscosity of 300OmPas / 20'C, a molecular weight of 3000 with an iodine number of 450, 10 parts by weight of a largely amorphous propene-butene-1- Ethene terpolymers with a butene-1 content of 22% and an ethene content of 8%, a viscosity number J of 40 cm ³ / g and an ether-soluble content of 85% and 25 parts by weight of a bitumen B 85/40 with a softening point (ring and ball) of 87 ° C, a breaking point (Fraass) of -22 ⁰ C and a penetration of 38Vio mm at 170 ⁰ C dissolved Subsequently, 0.01 parts by weight of cobalt octoate, 25 parts by weight of talc, 2.5 parts by weight of a Chl o.-paraffins with 16 to 22 - on average 18 - carbon atoms in the carbon chain and with a chlorine content of 69% and 6.5 parts by weight of dimethyl dioctadecylammonium montmorillonite are added and the mass is stirred until a uniform mixture is obtained Expansion mass.

If you add 1.5 parts by weight of the mass Sodium salt of Tetrapropylenbenzenesulfonsäure to, so one obtains a sealing compound, which also on adheres to a damp surface

Example 6

In a kneader, 15 parts by weight of a largely amorphous 1-butene-1-hexene-1 copolymer with a viscosity number J of 100 cmVg and an ether-soluble proportion of 96% with 9 parts by weight of an ethylene-propylene rubber with a Mooney ML-1.4 viscosity of 70 measured according to DIN 53 523 and a double bond content of 8 DB / 100 OC, 20 parts by weight of the B 200 bitumen used in Example 1, 40 parts by weight of a polybutene oil with a viscosity of 80,000 mPa.s / 20 ° C and a molecular weight of 910, which does not contain any low-boiling fractions which ^{boil below 150 °} C. at 2000 Pa, 3 parts by weight of antimony trioxide, 3 parts by weight of kaolin, 1 part by weight of carbon black, 9 parts by weight of a chlorinated paraffin

with 16 to 22 - on average 18 - carbon atoms in the Carbon chain and with a chlorine content of 69% mixed. You get a flame-retardant, plastic-elastic Dimensions,

If you use ethylene-propylene rubber instead of ■> a butyl rubber, a comparable plastic-elastic mass is obtained,

Example 7

15 parts by weight of an amorphous polyhexene-1, produced by polymerizing hexene-1 with the aid of a contact made from TiCl ₃ · 0.5 AlCl ₃ and Al (iC, H ₉ ) ₃ at 70 ⁶ C, with a viscosity number] of 160 cm ³ / g, which is completely in boiling diaryl ether soluble, and 68 parts by weight of bitumen B 300 at 150 ⁰ C in 10 parts by weight of a CDT-residue to a density of 0.93 g / cm ^3, a viscosity of 1000 mPa · s / 20 ° C and a molecular weight of 420. Then 5 parts by weight of a chlorinated paraffin with 16 to 22 - on average 18 - carbon atoms in the carbon chain and with a chlorine content of 69% and 2 parts by weight of tin dioxide are added. An easily processed, flame-retardant plastic mass is obtained which is stable ^{up to temperatures of about 200 °} C. 2 *>

Example 8

20 parts by weight of a largely amorphous polypropylene and a viscosity number J of 50 cmVg, an ether-soluble fraction of 88% and a melt viscosity of 25,000 MPa · s / 190 ° C., 18 parts by weight of a largely amorphous polybutene! having a viscosity number J of 45 cmVg, an ether-soluble content of 96% and a melt viscosity of 25 000 mPa · s / 170 ° C, 45 parts by weight of bitumen B 200 and 8 parts by weight of the one used in example 7 CDT residue are at 160 ⁰ C homogeneously mixed Then 5 parts by weight of a chlorinated paraffin with 16 to 22 - on average 18 - carbon atoms in the carbon chain and with a chlorine content of 69%, 2 parts by weight of antimony trioxide and 2 parts by weight of a stearic acid aminoamide are added. The result is an easily sweatable, flame-retardant hot-melt adhesive which is particularly suitable for gluing elastic sealing sheets and which also adheres to a damp surface.

The hot melt adhesive has the following property values: softening point (ring and ball) 150 ⁰ C, breaking point (Fraass) -27 ° C, penetration 67 '/ iomm, plastic temperature range of 177 ° C.

Claims (1)

Claim; Further development of the flame retardant thermoplastic bituminous melt with a wide plastic temperature range the end a) 5 to 50 percent by weight of a largely amorphous poly-α-olefin or poly-oc-olefin mixture with viscosity numbers J of 5 to 400 cm ³ / g and ether-soluble proportions over 60%, with up to half the weight of these polyolefins being replaced by an elastomer could be, b) 5 to 50 percent by weight of an optionally drying Ul containing hydrocarbon oil, the one Polybutene oil or a distillation residue from the production of cyclododecatriene or a mixture can be of both, c) 20 to 85 percent by weight of a bitumen, d) 1 to 15 percent by weight of a chlorinated paraffin with a chlorine content of 48 to 58% and / or an aromatic bromine compound, e) 0.5 to 10 percent by weight of a flame retardant, f) 0 to 40 percent by weight of a conventional additive and g) 0 to 5 percent by weight of a surface-active substance according to the patent application P 27 55 682.7-44 JO characterized in that as component d) 1 to 10 percent by weight of one Chlorinated paraffins with 15 to 30 carbon atoms in the carbon chain and a chlorine content of over 58% to 75% uses J5 20th