DD155767A3 - ADDITIVES FOR MOERTEL AND CONCRETE - Google Patents

Abstract

The invention relates to the use of nucleic acids and / or their derivatives as additives for mortar and concrete mixtures based on cement or gypsum. The aim of the invention is the cost-effective production of mortar and concrete mixtures with plasticizing properties. The invention has for its object to provide additives for Mortar and concrete available to improve the flow properties of the fresh mortar and concretes, without the solids properties are unfavorably influenced. According to the invention the fresh mortar or concrete up to 1%, preferably 0.05 to 0.5%, based on the binder content, nucleic acids and / or derivatives thereof, such as are obtained as a byproduct in the microbial protein recovery, optionally in combination with known Additives added. The additives used according to the invention improve the flow properties of the fresh mortars and concretes.

Description

220990 - ^

title

Admixtures for mortar and concrete

Field of application of the invention

The present invention relates to the use of nucleic acids and / or their derivatives as plastifizieronde additives for mortar and concrete mixtures based on cement or gypsum xuid can be classified in the IPK C Oft B.

Characteristic of the known technical solutions

It is known to add polymeric water-soluble compounds to mortar or concrete mixtures in order to improve their processability or to increase their strength as well as to introduce artificial air voids with a reduction of the W / Z value. The liquefying admixtures are mostly produced on the basis of lignosulfonates or synthetic water-soluble polymers are used, for example, condensation products of melamine, urea or phenols with formaldehyde. ¹ The plasticizing additives prepared by known methods are as the lignosulfonates by strength-reducing properties due to air entrainment either limited applicability Öder such as the sulfite-modified melamine resins in a wide use relatively expensive.

Also known is the use of proteins, protein derivatives and hydrolysates of various origins as plasticizing additives for mortar and concrete. ¹

For example, in SU-PS 55 ^ · 237 the use of microbial biomass as additive for cement concrete mixtures described These biomasses contain as main components proteins and carbohydrates as well as small amounts of lipids and nucleic acids in bound form and other substances »Since these products are natural products, they show uneven qualities and partially insufficient plasticizing effects. ^In addition, yeast and bacterial biomass have the disadvantage that the tendency toward uncontrolled formation of air voids and excessive retardation adversely affect the required strength development of the mortars and concretes. Therefore, microbial biomass are unsuitable as plasticizing additives

Object of the invention

The object of the invention is to produce inexpensive, plasticizing mortar or concrete mixtures. "

Explanation of Jes Jefes ens

The invention has for its object to provide additives for mortar and concrete available that improve the flow properties of the fresh mortar and concretes, without the solids properties are adversely affected. According to the invention, this object is achieved by using, as admixtures for mortar and concrete, nucleic acids and / or their derivatives, preferably nucleinates. The nucleic acids and / or their derivatives are characterized by a content, based on the total dry mass, of 30 to 90 $, preferably kO to 80 fo _{t of} ribonucleic acid.

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The nucleic acids are bound in the cell material as Nucleoproteide ago »The nucleic acid content of the cell material is ± m general to about 5 f ° t of microbial biomass to about 8 / S. Main components of biomass are proteins (50 - 70 fo), lipids (5 - 10 %) and carbohydrates (1O - 20 ^). Free nucleic acids and / or nucleic acid derivatives, preferably nucleinates, are inexpensive, for example, in processes for obtaining proteins from microbial biomass as by-products.

Surprisingly, the use of the nucleic acids and nucleic acid derivatives according to the invention instead of microbial biomass both improves the plasticizing effect of the additive and ensures strength development of the mortar and concretes in accordance with the standard values.

It is particularly advantageous to use the additives according to the invention in the form of nucleinates, preferably alkali metal or ammonium nucleinates or nucleic acids with organic amines, for example alkanolamines. ¹ makes it possible to vary the solidification of the cement and the processing time of the mortar or concrete mixes, so that, accelerating effects can for example be achieved with the inventive additives in the form of their salts with alkanolamines, preferably triethanolamine.

Another advantage of the invention is that by-products of microbial protein production are fed to an effective economic utilization. The optimal quantities of additives depend inter alia on the type of cement, the aggregate and the mixing ratio of the constituents. In general, the additives according to the invention are used in amounts of from 0.05 to 0.5 $ based on the binder content. At concentrations of the additives up to 1 % , it is possible to produce a fresh concrete with a higher air-pore content but improved air-pore stability that the additives according to the invention are simultaneously suitable for reducing the density of mortar and concrete mixtures *

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The nucleic acids and erfindungsgemäBen nukleinsäurehaltigon fractions can be used together with other aucli concrete admixtures _e Examples are mixtures with sulfonates of melamine-Formaldobyd condensates Ligninsulfo ~ nate and surfactants.

The invention will be explained in more detail with reference to the following examples.

Exemplary embodiments.

example 1

To a standard mortar mixture consisting of cement PZ h / k5 _} Nornisand and water in the ratio of 1: 3 · O, 5> was admixed as plasticizing admixture 0 _s 05 fo technical nucleic acid * The technical nucleic acid contained 68.7 ribonucleic acid "'

The plasticizing properties were measured by determining the slump and the development of solid glacial development on standard mortar prisms after assertion. The results are included in Tab. 1.

Analogously to Example 1 of the standard mortar mix was 0.1 fo Natriuin-Nukleinat mixed as plasticizing additives _e ~ The Natriura Niukleinat contained 37.2 '<$> _c ribonucleic The Egg "results of are shown in Table. ¹ 1 included .:

Example 3

Analogously to Example 1, the standard mortar mixture 0, 1 fo Triethanolairunonium-Niikleinat was admixed as plasticizing additive. The triethanolammonium nucleinate was prepared by dissolving 2.25 g of pure nucleic acid containing 83 μg of riboicinic acid and 0.5 μl of triethanolamine in 100 ml of water.

The results are included in Tab. 1.

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Table 1

Additional Dosage Drum- Off «Bend- Pressure-

to cement reduction-shrink-

PZ h / k5 measurement strength

  ness

· "(#) (Fo) (ram) (MPa) (MPa)

3 d 28 d 3 d 28 d

°> ¹ 6.8 160 6.0 7.9 31.0 ^ 9.5

S ^⁰^* ^h ^ ⁵ > ^{9 8} > ⁶ ^ 5 kB.B

nuSe ^ t, techn. ⁰ ^

Triethanol-

ammonium-0.1 7.2 I65 6.8 8.0 30.9 ^ 8.9

nukleinat

Zero mortar - - 125 5.2 7.8 32.1 49.0

Example 4

In a further series of experiments, 0.1 to 0.2 μl of pure nucleic acid were admixed to a NOmunörtel mixture according to Example 1 based on cement PZ 4/5. The pure nucleic acid had a content of 85 fo ribonucleic acid.

The results are included in Tab. 2.

Example 5

For comparison, li 0.1 % of a yeast biomass obtained by fermentation of brominated hydrocarbons by means of Lodderomyces elonci ^ porus was admixed with a lormomörtel mixture analogously to Example Λ.

Lie results are included in Tab. 2. The plasticizing effect of the yeast biomass was insufficient and the strength of the mortar decreased significantly.

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table ^ Dosie water Out- bending Around 28 d print 28 d additive tion redu wide- train 7, 5 festig 39, 3 to cement cation measure festig 7, 4 ness 40 9 PZ 4/45 ness 7, 8th 37, 2 (#). (*) (Mm) (MPa) 6 9 (MPa) 41 9 3d; 3d 0.1 7.6 172 4.5 24.4 Nucleus in the acid, pure 0 _? 2 11.1 185 4.0 14.9 0.1 4.4 161 5.6 30.6 yeast biomass - - 145 5.2 32.2 zero mortar

Example 6

In another series of samples, a standard mortar mixture according to Example 1 based on Cement PZ 7/35 was diluted with 0.1 $ pure nucleic acid. The pure nucleic acid had a content of 85 $ ribonucleic acid.

The results are shown in Tab. 3.

For comparison, a standard mortar mixture analogous to Example 6 is admixed with 0.1 to 0.2 % yeast biomass, which was obtained analogously to Example 5 and from which the adhering carbon hydrides and the lipid fraction were largely separated off. The results are contained in Tab _e 3. At a dosage of 0.1% to the mortar, there was a plasticizing effect, at the dosage of 0.2 % the strength of the mortar was lower than that of the zero mortar.

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Table 3

Addition to cement PZ 7/35

dosage

Drum- Bend- Compression- Reducer-Strengthenscertification- Speed Measurement (fo) (mm) (MPa) (MPa)

3 d 28 d 3 d 28 d

Nucleic acid, pure

Hef eb i omas se, cleaned

zero mortar

0.1

0.1 0.2

5.8

0 4.4

152 132

i4o

4.8

5.2 5.2

135 3.6

7.7 29.2 37.0

6.6 27.2 34.0

7.0 26.2 34.6

6.1 25.5 35.6

Pci game 8

A concrete formulation Bk 45 with 350 kg PZ 4/45, a ¥ / Z ratio of 0.49 and the consistency V 3 was used as a plasticizing Zusatzradttel $ 0.1 of a technical nucleic acid. with a content of $ 68.7 > ribonucleic acid admixed. The plasticizing properties were characterized by the determination of the number of proofs by rolling, the air pore content and the development of the solidification. The results are shown in Tab.

20 Example 9

Analogously to Example 8, the concrete formulation was admixed as a plasticizing Zusatz.el 0.05 $ sodium nucleic acid containing 37.2 $ ribonucleic acid. The results are contained in Tab.

25 Example 10

Analogously to Example 8, the concrete formulation was admixed with 0.1 $ of sodium nucleic acid containing 37.2 $ of ribonucleic acid as a plasticizing additive. The results are shown in Tab.

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Table 4 dosage Compression number to Walz Air pore content (VoI - / *) Compressive strength (MPa) 35.9 28 d additive 1 d 38.3 47.0 0.1 1.09 1.60 10.0 36.5 46.2 Nucleic Acid (techn.,) 0.05 1.14 1.46 12.0 36.0 48.0 Sodium Nucleinate (techn.) 0.1 1.10 1.65 9.0 45.9 .- 1.18 1.55 12.6 zero concrete

Claims (1)

2 2 0 9 9 0 invention claim Admixtures for mortar and concrete, characterized in that a fresh mortar or concrete up to 1 $, preferably 0.05 to 0.5 i ° t based on the binder content, nucleic acids and / or derivatives thereof, preferably nucleinates added , Z * additive according to item 1, characterized in that the nucleic acids and / or their derivatives, based on the total dry mass , 30 to 90 $, preferably hO to 80 ^, PJubonukleinsäure contain. 3 '' additive according to item 1 and 2, characterized in that are added as Nukleinate alkali. Or Ammoniumnukleinate or nucleinates with organic amines, for example AlkanoJ-aminon. Documents considered: SU-PS 554237 (C 04 B, 13/24) US-PS 3989534 (C 04 B, 13/24)