SK7468Y1 - Composite material for lightweight filler production and method for production thereof - Google Patents

Abstract

The composite plastic material for production of lightweight filler contains 43 to 62 % by weight of cellulosic paper sludge or wet filament paper, 3 to 30 % by weight of water, up to 4 % by weight of bentonite, up to 1 % by weight calcium stearate or other salt of fatty acid and up to 0.5 % by weight of surface active substances.

Description

The technical solution concerns the field of building production, namely building materials and fillers.

BACKGROUND OF THE INVENTION

At present, natural materials such as sand and stone in crushed or mined form are most commonly used in the construction industry as building materials in the form of fillers for concrete, mortars and dry mixes. Concrete and mortar are mixed directly on site or on site. will be brought to the construction site in advance. Dry mixtures are mixed directly on site. In addition, there are various lightweight fillers on the market which differ in composition, granulometry, bulk density, specific gravity, strength, absorbency, thermal conductivity, other properties and also price. Such lightweight fillers are marketed e.g. under the trade names expanded Perlit, Ekostyrene, Liapor, Poraver and others. The disadvantage of existing materials is that they do not allow the full use of environmentally friendly recyclable materials and their cost is relatively high.

The essence of the technical solution

The present solution largely eliminates the disadvantages of commonly used materials. The object of the invention is a composite plastic material for the production of cellular granular filler, which contains cellulose paper sludge or wet pulped waste paper in the amount of 43 to 62% by weight, 3 to 30% by weight water, 12 to 35% by weight cement, 0 to 4% by weight 0 to 1% by weight of calcium stearate (or other fatty acid salt) and 0 to 0.5% by weight of surfactants.

The properties of the base mixture as well as the properties of the granulated cellular filler are further improved by the addition of lime hydrate, gypsum with the possibility of total or partial cement replacement, microsilica, power plant fly ash and metakaolin, or water glass up to 40% of cement. Workability, resp. Improvement of the plasticity of the masterbatch in granules can be improved by the addition of plasticizers, stabilizers (thickeners) of organic or inorganic origin in an amount of 0.1 to 1% by weight.

The plastic mass for the subsequent production of the expanded granulated filler according to this solution uses recycled waste paper or cellulosic paper pulp. The recycled paper is mixed with water and then spun into a homogeneous slurry. The plastic mixture is prepared by adding the individual components to the cellulosic paper pulp, respectively. to the pulped moistened paper followed by homogenization. The homogeneous plastic mass is metered into a granulation apparatus where a wet granulate of various fractions of about 2 to about 16 mm is formed. The granulate is then dried to a constant moisture content. After drying it is used as a lightweight filler for the production of building materials.

EXAMPLES

Example 1

The ground and moistened waste paper is pulped. The plastic mixture is prepared by mixing and homogenizing the following components:

Component: wt.

Pulped wet paper (22.16%)

Cement I 42,5R Holcim 25,90

Microsilica 1,24

Bentonite 130 3.89

Water 26.57

This plastic consistency mixture was passed through the granulation die matrix to produce a granulate with a diameter of 2 to 14 mm.

Basic properties of granulate:

Bulk density compacted Bulk density - wet granulate Bulk density - dry granulate

1268 kg / yr

695 kg / m ³ 379 kg / m ³

SK 7468 Υ1

Example 2

The ground and moistened waste paper is pulped. The plastic mixture is prepared by mixing and homogenizing the following components:

Component: wt.

Pulped wet paper (22.16%) 61.22

Cement CEM II / B-S 32.5N Holcim 30.61

Microsilica 1,24

Bentonite 130 4.63

Calcium stearate 0.49

Water 3.05

This plastic consistency mixture was passed through a granulation die matrix where a granulate with a diameter of 2 to 16 mm was produced.

Basic properties of granulate:

Bulk density compacted 1346,0 kg / m ³

Bulk density - wet granulate 750.0 kg / m ³

Bulk density - dry granulate 412.5 kg / m ³

Example 3

The plastic mixture is prepared by mixing and homogenizing the following components:

Component: wt.

Cellulose paper sludge (51.2%)

Cement CEMIII / A 32,5N Vác 23,54

Calcium stearate 0.20

Microporan (surfactant) 0.52

Water 23.54

This plastic consistency mixture was passed through a granulation die matrix where a granulate with a diameter of 2 to 4 mm was produced.

Basic properties of granulate:

Bulk density compacted Bulk density - wet granulate Bulk density - dry granulate

1345 kg / m

822 kg / m ³ 550 kg / m ³

Example 4

The plastic mixture is prepared by mixing and homogenizing the following components:

Component: wt.

Cellulose paper sludge (51.0%)

Cement CEM III / A 32.5N Vac 15.42

Plaster 6,00

Calcium stearate 0.22

Microporan (surfactant) 0.48

Water 26.48

This plastic consistency mixture was passed through a granulation die matrix where a granulate with a diameter of 2 to 4 mm was produced.

Basic properties of granulate:

Bulk density compacted Bulk density - wet granulate Bulk density - dry granulate

1312 kg / m

805 kg / m ³ 535 kg / m ³

Example 5

The plastic mixture is prepared by mixing and homogenizing the following components:

component: % wt. Cellulose paper sludge (50.99%) 50,13 Cement CEM III / A 32,5N Vac 6.23 Calcium hydrate 12.40 Calcium stearate 0.24 Microporan (surfactant) 0.55 Water 30.45

This plastic consistency mixture was passed through a granulation die matrix where a granulate with a diameter of 2 to 4 mm was produced.

SK 7468 Υ1

Basic characteristics of the granulate: Bulk density compacted Bulk density - wet granulate Bulk density - dry granulate

1258 kg / m ³

756 kg / m ³ 498 kg / m ³

Example 6

The plastic mixture is prepared by mixing and homogenizing the following components:

Component: wt.

Cellulose paper sludge (51.2%)

Cement CEMIII / A 32,5N Vác 22,90

Calcium stearate 0.19

Microporan (surfactant) 0.48

Walocel MKX 15000 PP20 0.05

Water 26.26

This plastic consistency mixture was passed through a granulation die matrix where a granulate with a diameter of 2 to 4 mm was produced.

Basic properties of granulate:

Bulk density compacted Bulk density - wet granulate Bulk density - dry granulate

1315 kg / m

807 kg / m ³ 530 kg / m ³

Example 7

The plastic mixture is prepared by mixing and homogenizing the following components

Component: wt.

Cellulose paper sludge (51.2%)

Cement CEM III / A 32.5N Vac 22.67

Calcium stearate 0.19

Microporan (surfactant) 0.47

TylovisSE7 0.12

Water 27.23

This plastic consistency mixture was passed through a granulation die matrix where a granulate with a diameter of 2 to 4 mm was produced.

Basic features:

Bulk density compacted 1299 kg / m ³

Bulk density - wet granulate 796 kg / m ³

Bulk density - dry granulate 515 kg / m ³

Example 8

The plastic mixture is prepared by mixing and homogenizing the following components.

Cellulose paper sludge (51.2%)

Cement CEM III / A 32.5N Vac 25.54

Calcium stearate 0.26

Microporan (surfactant) 0.58

Stachement 2000 plasticizer 0.15

Water 20.87

This plastic consistency mixture was passed through a granulation die matrix where a granulate with a diameter of 2 to 4 mm was produced.

Basic properties of granulate:

Bulk density compacted 13 87 kg / m ³

Bulk density - wet granulate 856 kg / m ³

Bulk density - dry granulate 578 kg / m ³

Industrial usability

The lightweight composite granulate of various fractions having a diameter of about 2 to about 16 mm is used in the construction industry to produce various lightweight construction elements, such as e.g. masonry blocks, noise barriers, as a filler for lightweight screeds for roofs, residential construction, lightweight concrete and plasters. Further, the material is used, e.g. as thermal and acoustic backfills for ceilings and floors. The advantage of using lightweight compp4

In addition to the relatively low bulk density, the rye granulate also has thermal and acoustic insulating properties, increased water retention with reduced shrinkage crack formation in building materials, and increased fire resistance and frost resistance with built-in cellulose microfibers. The advantage in terms of durability is to reduce the capillary action of the water and to reduce water absorption. The use of finer fractions than the oil absorption mass in oil disasters is also envisaged.

PROTECTION REQUIREMENTS

Claims (4)

A composite plastic material for the production of a cellular granular filler comprising cellulosic paper sludge or wet fibrous waste paper in an amount of 43 to 62% by weight, 3 to 30% by weight of water, 12 to 35% by weight of cement, up to 4% by weight of Bentonite. 1% by weight of calcium stearate or other fatty acid salt and up to 0.5% by weight of surfactants. The composite plastics material for the production of a lightweight granular filler for building materials according to claim 1, characterized in that the base mixture further comprises lime hydrate, gypsum with the possibility of total or partial replacement of cement, microsilica, power ash, metakaolin or water glass in amounts up to 40% by weight of cement. The composite plastics material for the production of a cellular building material granulated filler according to claim 1, characterized in that the mixture further comprises plasticizers, stabilizers of organic or inorganic origin in an amount of 0.1 to 1% by weight. Method for producing a composite plastics material according to claim 3, characterized in that, after mixing and homogenization, the composite plastics material is metered into a granulating device, where plasticizing additives, stabilizers of organic or inorganic origin are added to the mixture, and the resulting wet granulate is dried. End of document