DE1925816B2 - Use of binders based on amorphous alpha-olefin polymers - Google Patents

Description

The invention relates to the use of colorless, Colorable binders based on amorphous α-olefin polymers for production of traffic areas, floor coverings, grouting, sealing, plastering compounds and cladding elements.

Bituminous masses have proven themselves as masses of the type just mentioned. The bitumen gives such products, however, have a black color, which makes the application of the corresponding Crowds are limited. In particular, it is not possible to use the conventional, off the bitumen originating from mineral oil processing to produce light colored masses. Just such masses however, they are absolutely necessary for a wide variety of technical purposes.

There are masses, as they are to be used according to the invention, known in which the Binder mainly made from natural and synthetic resins (coumarone, indene, hydrocarbon resins) consists. However, such a binder is very brittle and not very ductile. These properties of the resins and their inadequate resistance to cold also characterize the masses in which they are included. In addition, the finished masses have only a low level of wear due to high abrasion Have lifetime.

It is also known, masses of the desired type with the aid of synthetic resins, such as the Epoxies. However, the shelf life of such compositions is necessary as a result of this very little binder consisting of two components. The known difficulties with the Processing of two-component systems, as represented by the epoxy resin hardener systems the use of the appropriate masses for the above-mentioned purposes is very disadvantageous.

The invention is based on the object of creating a colorless, colorable binder that for example, is able to perform the task intended for the bitumen by virtue of its ductility as well as adopting its cold resistance in the same or even more completely. The this Molding compositions containing binders should also be used in conventional bituminous processing units Be mass processable.

According to the invention, this object is achieved in that a base material for the binder is used amorphous α-polyolefin or an amorphous copolymer of two or more -olefins, optionally in a mixture, is used. The base material can contain up to 90 percent by weight, preferably 30 to 70 percent by weight, be contained in the binder. Namely, can be used as an amorphous α-polyolefin atactic polypropylene come into consideration. The invention therefore relates to the use of amorphous polymers from α-olefins

ίο and / or an amorphous copolymer of two or several α-olefins as a base material for colorless, colorable binders for the production of Traffic areas, floor coverings, potting, sealing, plastering and cladding elements.

According to a particular embodiment, the base material can consist of amorphous polymers from α-olefins and / or an amorphous copolymer of two or more α-olefins, crystalline polymers from α-olefiiien, krislalline

ao contain copolymers of two or more α-olefins, resins, amorphous low molecular weight polyolefins, mineral oils, pigments, heat stabilizers and / or UV stabilizers.
The known inorganic or organic pigments with adequate temperature stability can be used as dyes.

According to the invention, products are obtained which, when tested in accordance with DIN 1995, have the following material properties result:

Penetration 10 to 200 1/10 mm,
Ductility 5 to 100 + cm,

Ring and ball softening point 25 to 150 ° C, breaking point after Fraß -15 ⁰ C and less.

Compared to the use of bituminous substances, the use of the invention The particular advantage of the binder is that it can be colored with all dyes. When using in particular of atactic polypropylene as the base material for the binder is another advantage It should be emphasized that atactic polypropylene does not become brittle and at the usual processing temperatures not cracked. Atactic polypropylene is also temperature-stable and in particular does not show any Networking phenomena.

As inorganic color pigments come z. B. Consider titanium dioxide, zinc sulfide, lithopone, iron oxide, Cadmium sulfides, selenides, cobalt and manganese pigments; The phthalocyanines may be mentioned as organic color pigments. The already excellent one The light stability of the binder to be used according to the invention is ensured by the addition of the pigments still increased.

The masses containing the binder consist of fillers, such as sand, Split, rock flour, chalk, quartz, jute and fibrous materials. Come as heat stabilizers sterically hindered phenols into consideration. Substituted benzophenones may be used as UV stabilizers called.

example 1

The binder has the following composition:

45 percent by weight of atactic polypropylene with the following material values: penetration 22 · 1/10 mm Ep. RuK 147 ° C, breaking point -15 ^: C; 5 weight

. percent isotactic polypropylene i ₅ (190 ° C) of 4 g / 10 min, 15 percent by weight of liquid paraffin (technical white oil from Shell) with a flash point 185 ⁰ C, viscosity of 35 cP at 20 ° C, pour point - 20 ° C, density at 15 ° C 0.855, 35 percent by weight aliphatic hydrocarbon resin (Escorez 1102 B; product from Esso-Chemie) Ep. RuK 100 ⁰ C.

The binder obtained in this way has the following material properties, measured in accordance with DIN 1995:

Ep. RuK 138 ° C,
Ductility 33 cm,
Penetration 42 1/10 mm,
Breaking point -17 ° C.

Example 2

The binder has the following composition:

40% amorphous copolymer of propylene and butene-1 with the following material properties:

Viscosity 3000OcP at 170 ° C,

Penetration 24 1/10 mm,

Ep. RuK 153 ⁰ C, breaking point -22 ° C.

34% coumarone-indene resin with Ep. RuK 85 ° C; 26% plasticizer oil with a viscosity of 110 cP, a density of 0.98 and a pour point of -5 ⁰ C.

The binder obtained in this way has the following properties:

Penetration 50 to 52 1/10 mm,
Breaking point -24 ⁰ C ₁
Ep. RuK 132 ⁰ C,
Ductility 25 cm.

Example 3

Binder of the following composition:

50% atactic polypropylene according to Example 1, 20 ° / (i polyisobutylene.

Material properties: Mn 820, viscosity at 20 ^c C, 250 + 30 P. density 0.889, pour point -18 ° C.

The binder has the following properties:

Ep. RuK 138 ° C,
Penetration 38 1/10 mm,
Ductility 42 cm,
Break point -20 ⁰ C.

Example 4

Binder of the following composition:
65 weight percent amorphous Polybiiten-1 having a viscosity of 1200OcP at 17O ⁰ C, penetration. 28 · 1/10 mm, Ep. RuK 112 ⁰ C, breaking point - 25 ° C, 20 percent by weight linseed oil, 15 percent by weight paraffin oil, as used in the binder according to Example 1.

The binder has the following properties:

Ep. RuK not measurable,
Breaking point below -25 ° C,
Penetration 320 1/10 mm,
Viscosity 500 cP.

Example 5

The binder has the following composition:

52 percent by weight of amorphous Polybuien-I with a penetration of 49 · 1/10 mm, a viscosity of 700OcP, breaking point below -25 ° C, Ep. RuK 108 ° C; 26% Escorez 1102 B, 22% Opanol BIO with Mn 8000, viscosity 5 x 10 * cP at 20 ° C, density 0.92.

The binder has the following properties:

Ep. RuK 90 ° C,
Penetration 55 1/10 mm,
Ductility 92 cm,
Breaking point below -25 ° C.

Example 6

So with the aid of the binder according to the example 3, a mastic asphalt was used to produce a road surface or marking as follows composed:

8.8% binder according to Example 3,

3.6% TiO ₂ ,

25% limestone powder,

45% quartz split 2/5 mm,
17.6% quartz sand 0.09 to 2 mm.

The mastic asphalt produced in this way has the following properties:

Depth of impression, measured according to DIN 1996 at 40 ° C., under 52.5 kg, 30 minutes, stamp with 5 cm ² : 2.8 mm; Processing temperature 190 ° C.

Example 7

Using the binder according to Example 4, one was composed as follows Sealant made:

70 percent by weight binder according to Example 4, 30 percent by weight amorphous chalk.

The sealing compound obtained in this way proved to be waterproof, non-aging and permanently plastic.

Example 8

Using the binder according to Example 5, one was composed as follows Joint sealing compound produced:

65 percent by weight binder according to Example 5, 35 percent by weight limestone powder.

The pourability of the joint sealing compound at 180 ° C. was good. The mass has passed the ball drop test according to Hermann (DIN 1996, page 18) at -20 ⁰ C and a drop height of 4 m. The elongation and adhesion, measured in accordance with DIN 1996, page 19, at a temperature of -10 ° C. was less than 5 mm. The dimensional stability under heat, according to Nussel, measured in accordance with DIN 1996, page 17, at 45 ° C. was 3.3 cm / cm. The encapsulant has a tendency to separate, measured according to DIN 1996, pp. 16, at 18O ⁰ C of 0.5 weight percent.

Claims (2)

Patent claims: 1. Use of amorphous polymers from α-olefins unii / 'or an amorphous copolymer from two or more α-olefins as a base material for colorless, colorable binders for the production of traffic areas, floor coverings, potting, sealing, plastering and Cladding elements. 2. Embodiment according to claim 1, characterized in that the base material is crystalline Polymers from α-olefins, crystalline copolymers from two or more α-olefins, Coumarone or indene resins, amorphous low molecular weight polyolefins, mineral oils, pigments, Contains heat stabilizers and / or UV stabilizers.