RU2353635C1 - Polypropylene composition - Google Patents

Abstract

FIELD: chemistry.

SUBSTANCE: invention relates to polymer compositions, in particular to polypropylene compositions. Composition contains isotactic polypropylene or its copoloymers with ethylene and polypropylene, modified with synthetic caoutchouc of Armlen brand, with their weight ratio equal 1-10:1. Products from claimed composition have higher physico-mechanical properties in wide range of temperature from (-)120°C to (+)170°C, which allows using them in conditions of Far North and permafrost.

EFFECT: increasing physico-mechanical properties of products obtained by casting under pressure.

2 cl, 3 ex

Description

The invention relates to a polymer composition, in particular to polypropylene compositions used to obtain products, for example, injection molding, extrusion, operating in a wide range of operating temperatures.

In industrial production, a thermoplastic propylene polymer is widely used, which is a colorless crystalline substance of an isotactic structure with a molecular weight of 300-700 thousand, a maximum degree of crystallinity of 73-75%, a density of 0.92-0.93 g / cm ³ at 20 ° C. T pl. 172 ° C [GOST 26996-86. Polypropylene and propylene copolymers]. Polypropylene is characterized by high impact strength (impact strength with a notch of 5-12 kJ / m ² , or kgf · cm / cm ² ), high resistance to repeated bending, low vapor and gas permeability; It is comparable in wear resistance to polyamides. In addition, polypropylene is a good dielectric (dielectric loss tangent of 0.0003-0.0005 at 1 MHz), poorly conducts heat. It does not dissolve in organic solvents, is resistant to boiling water and alkalis, but darkens and is destroyed by the action of HNO ₃ , H ₂ SO ₄ , chromium mixture.

The disadvantage of polypropylene is its high brittleness at low temperatures, which does not allow its use in products operating at low temperatures.

Numerous works have been devoted to increasing the heat resistance of polypropylene and elastic mechanical properties by adding additives of ultraphosphate (RU 2048488 C1), sulfonated polystyrene (SU 239549 A1), phenol stabilizers based on sterically hindered amines (RU 2095375 C1); the creation of a polypropylene composite material based on a mixture of polypropylene with a melt flow rate of 3-6 g / 10 min and a melt flow rate of 13-25 g / 10 min (RU 2252232 C1) or based on a mixture of polypropylene and a copolymer of ethylene with propylene with different dynamic viscosity 10-35% of a mineral filler selected from the group of calcium carbonate, talc, wollastonite or a mixture thereof (WO 2006/114358).

However, a disadvantage of the known polypropylene compositions is the reduction of physical and mechanical properties at low temperatures, which does not allow their use in products operating at low temperatures.

It is known that increasing the frost resistance of polypropylene compositions by introducing additives of siloxane, vinylsiloxane or phenylsiloxane rubber in an amount of up to 30 wt.% (SU 491660, SU 455124) leads to a decrease in their physical and mechanical properties. The introduction of a modifier in polypropylene in the form of a mixture of alkaline sulfate lignin with triethylene glycol dimethacrylate and the addition of dioctylsebacinate or low molecular weight dimethylsiloxane rubber and polyethylene siloxane liquid makes it possible to increase the frost resistance of polypropylene compositions to -50 ° C (SU 854957 A1, 1981). However, this does not provide the necessary high physical and mechanical properties of polypropylene.

The analogues of the indicated frost-resistant composite polypropylene are industrially produced polypropylenes modified with synthetic rubber and incorporating fiberglass, mineral fillers and other additives sold under the trademark Armlen® [Polypropylene compositions “Armlen” in the service of the Russian industry. M., "Polymer materials" No. 5 (24), May, 2001. Information Bulletin, p.1, 2].

However, these compositions are also not stable enough and have a high cost. In addition, the introduction of additives leads to a decrease in heat resistance at elevated temperatures.

An object of the invention is to increase the stability of the polymeric composition based on polypropylene in a wide temperature range from -120 ° C to + 170 ° C while achieving high physical and mechanical properties of polypropylene.

The present invention proposes a polypropylene composition containing isotactic polypropylene and its copolymers with ethylene and synthetic rubber modified polypropylene of the Armlen brand having T pl. 160-175 ° C and a melt flow rate of 0.5-12 g / 10 min, with a mass ratio of 1-10: 1.

The operating temperature range up to -120 ° C is provided with a mass ratio of polypropylene to Armlen equal to 4: 1.

Changing the ratio of components in this interval allows you to shift the operating temperature range in one direction or another.

The extension of the working temperature range in the range from -120 ° С to + 170 ° С for polypropylene products with high physical and mechanical properties is an unexpected technical result that does not follow from the properties of polypropylene and Armlen.

As polypropylene, for example, isotactic polypropylene with cf. m.m 75-300 · 10 ³ and its copolymers, for example, with ethylene.

Armlenes are polymer compositions of polypropylene modified with synthetic rubber (TU 2243-038-11378612-2002). Preferably, the Armlens have T pl. 160-175 ° C and a melt flow rate of 0.2-18 g / 10 min.

The melt flow rate is determined in accordance with GOST 11645-73.

The proposed polymer composition is obtained by mixing the starting components in the specified range of mass ratios, followed by obtaining products from it by a known processing method, such as injection molding, for example, on an injection molding machine such as injection molding machine, or extrusion, pressing.

The following examples illustrate but do not limit the present invention.

Example 1. The composition contains 100 parts by weight. polypropylene and 25 parts by weight Armlen PPSK 50-1 (mass ratio 4: 1). The product obtained from it in the form of an electrically insulating void-forming insert according to TU 2291-001-75173416-2007 is characterized by compressive strength (yield strength) above 38 MPa, hardness (extrusion resistance) above 40 MPa, and resistance to thermal aging while maintaining all mechanical and electrical properties in the temperature range from -120 ° С to + 170 ° С.

Example 2. The composition contains 100 parts by weight. block copolymer of polypropylene with ethylene (GOST 26996-86) and 20 parts by weight Armlen PPSK 20-2 (C) (mass ratio 5: 1). The product obtained from it retains all the mechanical and electrical properties of polypropylene in the temperature range from -120 ° C to + 170 ° C.

Example 3. The composition contains 100 parts by weight. polypropylene and 100 parts by weight Armlen PPSK 10-1 (mass ratio 1: 1). The product obtained from it retains all the mechanical and electrical properties of polypropylene in the temperature range from -120 ° C to + 170 ° C.

Thus, the proposed polymer composition provides enhanced physical and mechanical properties of products obtained from it in a wide temperature range that can be used in the Far North and permafrost.

The results are confirmed by the test reports of the polymer composition in the TI Quality laboratory (accreditation certificate No. РОСС RU 0001.21ХП32 of May 31, 2007). A sample submitted for certification for compliance with the requirements of TU. The certificate of conformity No. РОСС RU.АЮ17.H08387 was obtained, which confirms the reproducibility of the necessary properties of the composition, including thermostability.

Claims (2)

1. Polypropylene composition for injection molding containing isotactic polypropylene with a weight average molecular weight of 75-300-10 ³ or its copolymers with ethylene and polypropylene modified with synthetic rubber, brand "Armlen", having a melting point from 160 to 175 ° C and a melt flow rate of 0.5-12 g / 10 min, with a mass ratio of 1-10: 1. 2. The polypropylene composition according to claim 1, characterized in that the mass ratio of the components is 4: 1, respectively.