DD266344A1 - METHOD FOR STARTERING AND PURCHASING ACCURACY OF PORTLAND CEMENT CONTAINING HYDRAULICALLY APPLYING MIXTURES - Google Patents

Abstract

The inventive method can be used in all fields of application of concrete processing, where a high-early setting of the Portland cement-containing mixtures is advantageous. The essential features of the process according to the invention are shown in a non-corrosive, non-corrosive, non-corrosive hardening and hardening behavior of the cement paste containing cementation-containing, hydraulically setting mixtures, which can be controlled by the amount of addition. The aluminum salts resulting, for example, from the reaction of aluminum hydroxide with nitric, formic or acetic acid, added to the mixture, used individually or as a mixture with 0.036% to 0.36% aluminum to Portlandzementanteil, a solidification acceleration between about 2 hours to 30 seconds at high Adjust spring strength with unimpaired final strength.

Description

Field of application of the invention

The method of solidification and hardening acceleration of portland cement containing hydraulically setting mixtures according to the invention can be used in all fields of concrete application where e.g. the production of Monolithbauwerken, precast concrete products, spun concrete products, Fui.dnmenton, anchors, sprayed mortar and concrete or corrosion protection on steel structures provided by concrete and for technical and technological reasons, a solidification and erhörtungsbeschleunigung of the binder is advantageous.

Characteristic of the known state of the art Chemical processes for accelerating the solidification and hardening process of hydraulically setting mixtures

have been known for a long time.

The oldest, most effective, cheapest and currently still accelerated accelerators are calcium chloride, Alkali aluminates, alkali metal carbonates, alkali silicates and alkali and alkaline earth sulfates. When using this Zusntzmittol are known as adverse effects that chloride-containing accelerator to the

inlaid steel parts cause corrosion and alkali metal or sulfate-containing accelerators damage the cement stone (alkali or sulfa rubbing).

The Natriumaluminatlauge used, for example, as a hardening accelerator due to the strong alkaline reaction

and corrosive effect not impairing the Zementsteinfes activity also not completely avoid the disadvantage that the risk of health and Uinweltschädigungen persists even in technical and technological measures.

Furthermore, it is chemically unstable at temperatures below ⁰ ° C. and then no loss of quality can be used. Of the known Verfahron can not increase the Abbindebeschigungung (jenereil on the increased Addition amount of each accelerator-ζ. B. can not be achieved with soda, water glass and Natrlumalumlnatlauge. Combinations of the above-mentioned methods with corresponding other chemicals show the endeavor of Experts to compensate for the existing disadvantages. In order to eliminate the corrosive effect of the chloride-containing additives, for example, an admixture of Alkali metal nitrites or nitrates. For this purpose, it was proposed ready to after the concrete mixtures DO-PS130028 except dialuminium pentahydroxichloride, sodium nitrite; DE-AS 2200590 except calcium chloride, nitrites; AT-PS 320512 except Erualkölichlorid, alkali nitrate

to eliminate the corrosive effect during acceleration of the setting process.

However, these added Alkallsmetallsalzo cause in the intended protection of the steel parts before the contained in the concrete mixture free chlorides turn a deterioration of Zemontstoinbildung in the way that a significant drop from the sun to reach concrete final strength is recorded.

Ee is also known to compensate for the damaging effect of alkali compounds on cement stone formation by adding carboxylic acid or oxycarboxylic acid derivatives to wood,

So is after

OD-PS 97410 on alkali carbonate and Silica oino addition of salts of tartaric, gluconic or lactic acid, etc .; DD-PS 86729 to Alkallaluminat an addition of oxycarboxylic acid. their salts or esters; Dt-OS 2708805 to Alkalikarhonat an addition of sodium glucomat;

DE-OS 2425512 to Alkallaluminat an addition of the salt of a polyhydroxicarboxylic acid; AT-PS 37 '. 088 to alkali and alkaline earth metal hydroxides a addition of polycarboxylic and polyoxycarboxylic and polyhydroxicarboxylic acid which are added to the concrete blend.

This however results in the disadvantage that these accelerator combinations can only make a significantly lower Beschnunigungseffekt effect at significantly higher cost.

In addition to these compromises to be made in a known manner with respect to corrosion, final solidification and wetting in the solidification and hardening acceleration of the binder of the hydraulically setting mixtures, the health and environmental hazard is to be regarded as a beetehonder, lasting disadvantage in the strongly alkaline reacting salts.

Aim of the invention

The object of the invention is to provide, for the different applications of Portland cement-containing, hydraulically setting mixtures, a process for advantageously solidifying and hardening accelerations which avoids the disadvantageous effects of the known acceleration processes without unreasonably increasing the technical or economic outlay.

Explanation of the essence of the invention

The invention is therefore based on the object 'to develop a method, the Portlandzement containing, hydraulically setting mixtures a non-damaging nor umweltbelastendes non-corrosive, the Endfestlgtoit the cement not impairing, according to the addition amount stouerbares, early high-fat Eretarrungs- and hardening in one customary temperature range of -10 ° C to f 40 ° C causes. In the experiments carried out to solve the problem, among other things, a neutralization of the strongly alkaline sodium aluminate with nitric acid showed that the neutralization products, a mixture of various nitrates of aluminum and sodium, also showed a good acceleration on Portland cement mixtures. This contradicts the point made in the art that the influence of nitrates, e.g. of lithium, ammonium, sodium, potassium, rubidium, beryllium, magnesium, calcium, strontium and barium, if any, then only an insignificant acceleration effect for the hardening νο · ι Portlandzementmassen show.

Since the nitrates of various cations an unfavorable acceleration performance is attributed to Poitlandzement, this effect has been particularly related to the nitration, because the chlorides of the same cations are known to provide a good acceleration.

In overcoming the existing Auffasoungen confirmed further attempts, for. As with acetic acid and formic acid, these Neutialif tion products show an equally good acceleration effect, such as the nitrates, and proved that not the anionic nitrate but the Katlon-Aluminlum an accelerating effect for the solidification and hardening of Portlandzementmischungen yielded, with cationic as anionic aluminum particles work equally well. If a water solubility of the aluminum compounds which is necessary for the homogeneous distribution is desired, the anionic compounds-aluminates-water-soluble but can be achieved only with alkali metal cations which impair the final strength, the object of the invention is to achieve an accelerated setting of portland cement-containing hydraulically setting mixtures without known disadvantages dissolved via the compound sulfate, alkali metal and chloride-free, cationic, water-soluble aluminum salt with an anionic acid & t. The cationic aluminum salts are prepared by reacting freshly precipitated aluminum hydroxide Al (OH) 3-preferably with an industrially selected, concentrated formic, acetic or nitric acid, for technical reasons and, since you «industrially produced inexpensively in large quantities, selected for economic reasons , where water-soluble salts of the general formulas

Al (OH) ₂ R-XH ₂ O Al (OH) R ₂ -XH ₂ O AIR ₃ -XH ₂ O.

arise in which the acid-nitrate, formate or acetate - in the formein with R was designated. These salts act individually, as well as oin mixture of these salts when added to mixtures containing Portlandzement accelerating to Abbindeverhalten or that of the mixture, the final strength is even slightly increased over that of iinbeschleunllten analogous mixtures.

The dosage is carried out according to the method depending on the desired acceleration effect according to the respective application of the hydraulically setting mixture on the ratio of aluminum content of the individual salt or the sum of the salt mixture based on the contained in the concrete mixture Portlandzementmenge 't to achieve favorable reactions tu must not be less than 1owow .-% in the concrete mixture.

According to the problem to be solved, the process with aluminum salts of nitric acid is to be preferred, whereby

An additional protection against steel corrosion is inserted in inserted steel parts.

Preferably Al (NO ₃ I ₃ 9 H ₂ O or Al (NOj) ₃ as well as the other aluminum salts corresponding to the general formulas-Al

(C] HjO])], 'Al (HCO))] - when added to the Portlndzementantell the setting mixture with a

Aluminum content of 0.036%, an acceleration of solidification to about 2 hours and from 0.36% such to about 35 Adjust seconds. When using cement mixtures with reduced aluminate content, the percentage additions of aluminum part are

added aluminum salts or aluminum salt mixtures, based on the Portland zemontantoil, to increase to about 0.8% according to the suitability test for the intended application.

The thereby achieved strength of the concrete mixture in 24 hours increases relative to Jer unharnessing setting

a value of 1.5 to 7.6 times, which decreases with increasing cycle to firmness after 28 days, then reaches a similar or slightly higher average word.

The additional amount required according to the dom method for an application that is precisely timed and accelerated Setting is advantageous for the corresponding, different concrete mixtures used before over Determine prism tests. For example, for shotcrete of a mixture of

21% Portland cement PZ 4/45 and 79% concrete gravel 0/8,

0.36% aluminum which was dissolved in the form of 6% Al (NO ₃ ) ₃ .9H ₂ O to the PZ portion In the mixing water to be added with W / Z factor 0.42 added and caused a solidification of the shotcrete mixture In about 30 seconds. Same accelerations can be achieved by analogous amounts of the aluminum of the formates, acetates or mixtures thereof including the nitrates.

The acceleration of the freezing and hardening of the hydraulically setting Portlandzement containing Gemischnn can thus be controlled by the additional amount according orfnduiigsgemäßen process with cationic aluminum salts, which have no corrosive effect on the inserted steel parts, when using Al (NO ₃ I ₃ · 9 H ₂ O or Al (NO ₃ ) ₃ even inhibit corrosion, cause no impairment of the formation of cement mortar and final solids, can be safely used in terms of health and environmental behavior, processing in the temperature range from -1O ⁰ C to + 40 ⁰ C possible make it possible to achieve a high level of early-life and at the same time a high final strength.

embodiment

The inventive method for solidification and hardening acceleration Portland cement containing, hydraulically setting mixtures will be explained in more detail in an Aueführungsbeispiel: A z. B. for shotcrete intended solid mixture of Portland cement PZ 4/45 = 21%

Concrete gravel 0/8 = 79%

at the spray nozzle mixing water is added with a W / Z factor of 0.42 in which an aluminum content of 0.36% in the form of Al (NO ₃ I ₃ · 9 H ₂ O, based on the Portlandzementmenge solved. With this mixture, a solidification time of 30 to 60 seconds is achieved.

Analogous solidification times can also be achieved when using the analogous amounts of aluminum of the formates and acetates of aluminum or mixtures of the salts with the same aluminum content,

DIo according to the inventive method cationic aluminum salts are prepared by reacting freshly precipitated aluminum hydroxide Al (OH) ₃ -vorzugsweise preferably with a concentrated formic, acetic or nitric acid, wherein water-soluble salts of the general formulas

At (OH) ₂ R -XH ₂ O Al (OH) R] -XH ₂ O AIR ₃ -XH ₂ O

in which the acid residue nitrate, formate or acetate - in the formulas with R was designated.

The Alumlnlumsalzu Al (NO ₃ ) ₃ 9 H ₂ O, Al (NO ₃ I ₃ , Al (C ₂ H ₃ O ₂ Ij; Al (HCO ₇ I _{3 used} for their process according to Apply once to% aluminum content, on the other hand to% Alumink ': salt content, based on Portland cement Mixtures, the solidification zooms and compressive strengths achieved are 1,3,7 and 28 days in the following Table

listed.

The compressive strengths of the accelerated solidified concrete mixtures according to the method accelerated by prescriptions

for shotcrete cores obtained from the shotcrete wall created - 60mm diameter and 100mm

Length - and of other applications and formulations of test cubes made from the respective mixtures -

a = 200mm - won, tested similar cores.

When applying the method for accelerating the setting of hydraulically setting mixtures with

different cement mixtures, it is advantageous to verify the solidification times on prism tests for corresponding formulations, since the property of different cement mixtures and concrete mixtures can lead to minor changes, the Portlandzementanteil, based on the concrete mixture, must not fall below 10%.

The procedure according to the table according to the application to be administered Dosage can over the Addition rate: "Solidification and hardening of the Portland cement containing hydraulically setting mixtures

erroichen, where koine corrosive effect on pickled steel parts, no impairment of Zomentstoi.'iausblldung occurs and the health and environmental protection is fully taken into account.

When using cement mixtures with a reduced aluminum content, the percentage additions of aluminum antellum of the added aluminum salts relative to the PZ anion to I according to the suitability test for the intended application should be increased by about 0.8%.

% AI verfahrendsg. Alumi Erstar R1 R1rel. R3 R3rel. R7 R7rel. R 28 R28rel. ν. PZ eingesetztot minium · rungs- INmm- ^J ] |% RO1] (N-mm-'l ; RO3%] INrnm " ² ) (% RO7] INmm " ² ] [% RO 28] 4/45 aluminum salt salt Time |% V.PZ] | Min: Sec]. O without «Ro 0 266: 00 2.6 100 15.31 100 28.43 100 34.67 100 0.36 Al (NOj) ₃ -9 HjO 5.00 12:30 19.75 759.6 24.00 156.8 31.32 110.2 35.32 101.9 0.36 AI (NO ₃ I ₃ 2.84 12:25 19.50 750.0 23.50 153.5 30.50 107.3 34,60 99.6 0.36 Al (CH ₃ O ₃₎ 2.72 12:45 18,90 720.9 23,70 154.8 30,80 108.3 34,90 100.7 o.ae AI (HCOj) ₃ 2.63 12:40 19.20 738.5 22,90 149.6 31.10 109.4 35,20 101.5 0.22 Al (NO ₃ J ₃ -9 H ₂ O 3.00 6:00 14.76 567.7 23.54 153.8 30.74 108.1 34.89 100.6 0.22 AI (NO ₃ ), 1.70 4:45 14.25 648.1 23.25 151.9 29.85 105.0 35,10 101.2 0.22 Al (C ₂ H ₃ O ₂ ), 1.63 5:05 14.10 542.3 22,90 149.6 30.45 107.1 34,90 100.7 0.22 AI (HCOj) ₃ 1.52 4:55 14.45 550.8 23.45 153.2 30,60 107.6 35,20 101.6 0.07 Al (NOa) ₃ -9H ₂ O 1.0 61:40 8.24 316.9 19.25 125.7 29,45 103.6 35.15 101.4 0.07 AI (NOs) ₃ 0.57 61:30 7.90 303.8 18.85 123.1 28.55 100.4 34.85 100.6 0.07 AI (CjH ₃ Oj) ₃ 0.54 52: 4t 8.05 309.0 19.05 124.4 28,90 101.7 34.48 99.5 0.07 AI (HCOj) ₃ 0.51 50:60 0.15 313.5 19.15 125.1 29.15 102.5 34.76 100.2 0,036 Α |, (ΝΟ ₃ ) ₃ · 9Η ₂ Ο O ₁ ROO 125: 00 3.75 144.2 16.50 107.8 28.60 100.6 34,70 100.1 0,036 AI (NO ₃ ), 0,284 119: 00 4.10 157.7 16.30 106.5 29,00 102.0 34.76 100.2 0,036 AI (CjH ₃ Oj) ₃ 0.272 123: 00 3.80 146.2 17.00 111.0 28.50 100.2 34,90 100.7 0,036 AI (HCOj) ₃ 0.253 115: 00 3.90 150.0 16,80 109.7 28.60 100.6 34,60 99.8

Claims (6)

1. A method for solidification and hardening acceleration Porttand cement containing hydraulically setting mixtures based on aluminum-containing compounds, wherein the solid mixture of about 79% aggregates - concrete gravel 0/8 and about 21% binder-cement mixtures with at least 10% Portland cement PZ 4 / 45 - to which mixing water is added accordingly, characterized in that chloride, sulfate and alkali metal-free aluminum salt in which the aluminum is present as a cation and a respective chemically bound acid radical as the anion, preferably dissolved in mixing water, is added to the mixture. 2. The method according to claim 1, characterized in that from the reaction of freshly precipitated aluminum hydroxide with acids resulting aluminum salt according to the empirical formulas Al (OH) ₂ -Rx H ₂ O, Al (OH) -R ₂ -XH ₂ O or Al · R ₃ · χ · H ₂ O, in which R indicates the anionic acid radical, is added to the mixture. .3. Process according to Claims 1 and 2, characterized in that preferably aluminum salts from the reaction of aluminum hydroxide with nitric, formic or acetic acid are added. 4. The method according to claim 1 to 3, characterized in that one of the canonical aluminum salts or a mixture of these, including those with different acid residue nitrate, Formtet and acetate - associated aluminum cations, the mixture is added. 5. The method according to claim 1 to 4, characterized in that in the mixture, an aluminum content of 0.036 to 0.36% with one of the aluminum salts or aluminum salt mixtures, based on the Portländzementanteil introduced. 6. The method according to claim 1 to 5, characterized in that in Portland cement with reduced aluminate content in the mixture, an aluminum content of 0.07 to 0.8% with one of the aluminum salts or an aluminum salt mixture, based on the Po. Tlandzomentanteil is introduced.