AT504328B1 - USE OF AN ADDITIVE TO A BUILDING MATERIAL AND METHOD FOR PRODUCING A BUILDING MATERIAL - Google Patents

Description

2 AT 504 328 B1

The invention relates to the use of an additive for a hydraulic binder in building materials and a method for producing a building material using the additive according to the invention, pellets comprising the additive and method for producing these pellets.

Milk and dairy ingredients have long been used in construction. For example, WO 92/12102 discloses a process for obtaining uniformly colored lime-cement plasters on masonry, in which milk, milk powder or casein powder is added to a hydraulically setting plaster when mixing with the mixing water. In particular, the addition of skimmed milk powder or finely divided casein powder in a ratio of 5 to 100 g per liter of mixing water lead to a uniform color of the plaster. It has been shown that at less than 5 g of the desired effect is no longer achieved satisfactorily, whereas more than 100 g of the additive per liter of mixing water on the curing of the mortar and the strength of the finished plaster adversely affect.

From DE 39 20 662 A1, the use of ethylene oxide / propylene oxide block copolymers in hydraulically setting compositions and the resulting compositions are also known. The dust development when using dry, hydraulic binders should be reduced in this way. The hydraulically setting compositions contain 0 to 6 parts by weight of casein.

In CH 193 289 a binder is shown, which is intended in particular for the attachment of wall and floor panels. The adhesion of the binder is improved by containing about 1.5% by weight of casein, preferably in powder form. For the preparation of this binder, the ingredients casein, a hydraulic binder such as Portland cement and casein glue are mixed in powder form, then water is added.

GB 951 430 A describes a cement mixture consisting of 4 to 10% by weight of a proteinaceous adhesive, preferably of casein.

AT-E 40 670 B discloses the addition of a protein hydrolyzate for hydraulic binders, mortars and concrete and their application in the construction industry. As starting material for these additives milk proteins can be used.

The object of the present invention is to increase the strength of a building material by providing the necessary for the preparation of the building material hydraulic binder with an additive. As building materials are, for example, concretes such as foam and aerated concrete, all hydraulically curing components such as solid blocks, hollow blocks, etc., mortar and plaster and building materials from lightweight aggregates, which bind hydraulically called.

According to the invention this is achieved in that an additive is used for a hydraulic binder, wherein the additive max. 60% lactose and max. 40% milk protein and the milk protein contains 70 to 90% casein and 10 to 30% whey protein, and optionally max. 1.5% fat, wherein the mass ratio of additive to hydraulic binder is between 1: 130 and 1: 62500. As hydraulic binder the following substances can be used: hydraulic and natural hydraulic lime, all types of cement such as Portland cement, blast-furnace cement, Roman cement and pozzolana cement, as well as mixtures of these substances.

The ingredients lactose and milk protein are present in skimmed milk powder in the required mass ratio, moreover, the low fat content is necessary, since at a higher proportion, the result is unsatisfactory. Furthermore, whey protein is an indispensable component of the additive because it has been found in experiments that the sole addition of casein did not lead to satisfactory results. Therefore, the use of skim milk powder is also advantageous in terms of availability and cost as an additive.

It is particularly advantageous if the additive is present as a pellet, bead, pad or the like, since not only a practical handling in terms of storage and transport is achieved, but also the dosage is much easier, since the additive in relation to hydraulic Binder and aggregate is mixed in relatively small amounts.

In the production of a building material which comprises the additive, a hydraulic binder, an additive and water, a preferred mass ratio of additive to hydraulic binder is between 1: 500 and 1: 5000, since in this area in tests the best results in terms of strength of the building material were achieved.

At a mass ratio of hydraulic binder to aggregate between 1: 3.5 and 1: 4.5 is a favorable mass ratio of additive to hydraulic binder between 1: 130 and 1: 40000 before, being used as an aggregate sand, gravel, crushed stone, chippings and The like can be used. For a mass ratio of hydraulic binder to aggregate between 1: 2.5 and 1: 3.5, a preferred mass ratio of additive to hydraulic binder between 1: 200 and 1: 62500 before, since these values in experiments compared to a building material without Additive higher strength has been achieved.

Furthermore, a method for producing a building material is shown, comprising a hydraulic binder with an additive comprising max. 60% lactose and max. 40% milk protein, the milk protein contains 70 to 90% casein and 10 to 30% whey protein, and optionally max. 1.5% fat, wherein the mass ratio of additive to hydraulic binder between 1: 130 and 1: 62500 and the mass ratio of water to hydraulic binder between 1: 0.45 to 1: 0.65. For the production of such a building material, it is advantageous to choose the mass ratio of additive to hydraulic binder between 1: 500 and 1: 5000, wherein the mass ratio of water to hydraulic binder between 1: 0.45 to 1: 0.65 should be because through experiments the best results for this area were obtained. For the production of a building material, it is particularly convenient in terms of storage and transport and the more manageable dosage to have the additive in the form of pellets, beads, pads or the like. For this purpose, pellets are suitable which comprise 5 to 15% of the additive and 85 to 95% sand, wherein the sand preferably comprises at least 50% quartz sand and has a grain size below 0.5 mm.

In order to produce such pellets, 5 to 15% of the additive with 85 to 95% sand are dry mixed, then mixed with water and mixed and finally pressed into pellet form and dried.

The present invention will be further explained below with reference to examples a) to n), without being limited thereto. The table shows the prism strength of a building material in N / mm2 after 3, 7, 28 and in Examples g) and h) even after 56 days, wherein in Examples a) to I) for the production of the building material 1440 g of cement as hydraulic Binder, 5760 g of sand as an aggregate, 792 g of water, and the amount of skimmed milk powder in the table were used as additive.

In examples a) to c), the building material was prepared so that the additive was dissolved in water with the aid of an agitator and ultrasound.

For comparison, examples m) and n) are given, the values of which were obtained when no additive was added to the building material. In this case, 1440 g of 4 AT 504 328 B1 were used in Example m)

Cement, 5760 g of sand and 792 g of water used, in Example n) 1800 g of cement, 5400 g of sand and 990 g of water.

Example additive in% by weight prism strength in N / mm 2 after 3 days after 7 days after 28 days a) 0.005 54.74 65.94 76.87 b) 0.008 50.30 64.36 75.35 c) 0.01 54.68 63.12 75.10 m) 0 48.13 58.02 67.80 n) 0 51.09 60.15 68.90 For the examples d) to f), the stirrer was dispensed with.

Example additive in% by weight prism strength in N / mm 2 after 3 days after 7 days after 28 days d) 0.005 54.7 59.67 75.92 e) 0.008 54.99 69.83 78.74 f) 0.016 45 93 66.41 73.27 m) 0 48.13 58.02 67.80 n) 0 51.09 60.15 68.90

The pellets according to the invention were dissolved in an ultrasonic bath and with the aid of an agitator, which led to the results in Examples g) to i).

Example additive in weight% prism strength in N / mm2 after 3 days after 7 days after 28 days after 56 days 9) 0.00155 59.37 70.46 81.56 79.85 h) 0.00194 58.12 69 , 68 81.24 82.03 i) 0.0023 51.09 67.18 75.17 m) 0 48.13 58.02 67.80 n) 0 51.09 60.15 68.90

In Examples j) to I), the pellets were dissolved without stirrer.

Example additive in% by weight prism resistance in N / mm 2 after 3 days after 7 days after 28 days j) 0.00155 52.5 67.10 78.20 k) 0.00194 53.75 64.38 72.81 l ) 0.0023 55.88 67.82 74.37 m) 0 48.13 58.02 67.80 n) 0 51.09 60.15 68.90

Claims (10)

5 AT 504 328 B1 Claims: 1. Use of an additive comprising max. 60% lactose and max. 40% milk protein, the milk protein contains 70 to 90% casein and 10 to 30% whey protein, and optionally max. 1.5% grease for a hydraulic binder to achieve a higher strength of building materials produced using the hydraulic binder, wherein the mass ratio additive to hydraulic binder is between 1: 130 and 1: 62500. 2. Use according to claim 1, characterized in that the additive is in the form of skimmed milk powder. 3. Use according to claim 1 or 2, characterized in that the additive is present as a pellet. 4. A method for producing a building material using the additive according to one of claims 1 to 3, characterized in that the additive, a hydraulic binder and an aggregate are mixed with water, wherein the mass ratio additive to hydraulic binder between 1: 500 and 1 : 5000 lies. 5. A method for producing a building material using the additive according to one of claims 1 to 3, characterized in that the additive, a hydraulic binder and an aggregate are mixed with water, wherein the mass ratio of additive to hydraulic binder between 1: 130 and 1 : 40000, wherein the mass ratio of hydraulic binder to aggregate between 1: 3.5 and 1: 4.5. 6. A method for producing a building material using the additive according to one of claims 1 to 3, characterized in that the additive, a hydraulic binder and an aggregate are mixed with water, wherein the mass ratio additive to hydraulic binder between 1: 200 and 1 : 62500 and the mass ratio of hydraulic binder to aggregate is between 1: 2.5 and 1: 3.5. 7. A method for producing a building material comprising a hydraulic binder using an additive according to any one of claims 1 to 3, comprising the additive comprising max. 60% lactose and max. 40% milk protein, the milk protein contains 70 to 90% casein and 10 to 30% whey protein, and optionally max. 1.5% fat, characterized in that the additive, a hydraulic binder and an aggregate are mixed with water, wherein the mass ratio of additive to hydraulic binder between 1: 130 and 1: 62500 and the mass ratio of water to hydraulic binder between 1: 0.45 to 1: 0.65. 8. A method for producing a building material according to claim 7, characterized in that the additive, a hydraulic binder and an aggregate are mixed with water, wherein the mass ratio additive to hydraulic binder between 1: 500 and 1: 5000 and the mass ratio of water to hydraulic binder is between 1: 0.45 to 1: 0.65. 9. pellet comprising an additive for use according to any one of claims 1 to 3, characterized in that the pellet comprises 5 to 15% of the additive and 85 to 95% sand, wherein the sand comprises at least 50% quartz sand and a grain size below 0 , 5 mm. 6 AT 504 328 B1 10. A process for the preparation of a pellet according to claim 9, characterized in that 5 to 15% of the additive with 85 to 95% dry sand, then mixed with water and mixed and finally pressed into pellet form and dried. No drawing