DE202011050860U1 - Acid-resistant mortar - Google Patents

Abstract

Acid-resistant mortar which comprises an aggregate component, a binder component and a modifying polymer component, characterized in that the aggregate component has broken limestone as the main component.

Description

The invention relates to an acid-resistant, suitable for use in acid-contaminated environment mortar, with a supplemental component, a binder component and a modifying polymer component.

Strains of building materials by acids are known to occur in sewage and sewage systems in which biogenic sulfuric acid formed against the z. B. concrete is not resistant, causes considerable damage. Due to the action of acid, it is possible to achieve removal rates of several centimeters per year on concrete surfaces.

The previously available for the renovation of such systems available building materials based on glass or silicate are expensive and their processing is complicated. Available inexpensive and easier-to-use mortar materials do not yet reach the required acid resistance.

The invention has for its object to provide a new mortar, which has grown high acid loadings.

This object is achieved by a mortar of the type mentioned, which is characterized in that the aggregate component has broken limestone as the main component.

With broken limestone instead of quartz sand as the main constituent of the aggregate component, it is possible to achieve a markedly increased resistance to corrosion compared to known mortar building materials, which makes it possible to use the mortar for remediation of structures damaged by acids, in particular in sewage and sewage treatment systems ,

The grain sizes of the broken limestone are preferably in the range of 0.5 mm to 4 mm, preferably 2 mm.

The fractured limestone forming the main constituent of the aggregate component may be calcite (CaCO ₃ ) or / and dolomite (CaMgCO ₃ ).

An extension of the aggregate component by quartz sand used in addition to the main constituent has proved to be advantageous.

In a preferred embodiment of the invention, the binder component comprises Portland cement as main constituent, in particular CEM I.

It is expedient to use sulfate-resistant, C3A-free or at least -expensive Portland cement.

Preferably, the binder component in addition to said main component further silica fume and / or a latent hydraulic, in connection with cement-reactive building material. The building material is in particular fly ash.

In particular, a redispersible-boron polymer dispersion powder comprising a vinylacetate-ethylene copolymer is used as the modifying polymer component.

The mortar can be processed by hand as a repair or grout. For mechanical processing under surface or local application, the dry and wet spraying process come into consideration.

In addition to increased acid resistance, the compositions described above also lead to an improvement of the adhesive bond between the mortar and a concrete substrate and to a low elastic modulus of the mortar, which allows a stress-free connection with the concrete. The mortar can therefore be applied over a large area to attacked concrete surfaces for repair. The measures mentioned can also improve the shrinkage behavior of the mortar. This also affects the water penetration depth and capillary water absorption.

The invention will be further explained with reference to embodiments.

Example 1:

A mortar contains as a surcharge component to 48% a calcite / dolomite mixture, 16% silica sand and 10% filler. A proportion of 18% of the calcite / dolomite mixture is attributable to the particle size range of 0.5 to 1 mm, a proportion of 20% to the particle size range of 1.0 to 1.5 mm and a proportion of 10% to the particle size range of 2 up to 2.5 mm.

The mortar contains as binder component to 18% CEM III / B 42.5N-LH / HS / NA cement, 1.6% microsilica powder 940 U-S and 5% electro-filter ash.

The mortar contains as polymer component to 2.5% of a redispersible, Vinylazetat-ethylene copolymer having polymer dispersion powder.

At less than 1%, the mortar also contains defoamer, surfactant, water repellant, plasticizer and modifier.

The processed mortar with the above composition achieves high acid resistance. With good setting behavior and low shrinkage he meets in terms of strength. E-module and adhesive bond all basic requirements of DIN EN 1504-3.

Example 2:

The mortar contains 55.1% aggregate component as a calcite / dolomite mixture and 17.8% quartz sand S12 T. A proportion of 19.7% of the calcite / dolomite mixture is attributable to the particle size range 0.5 to 1 mm, a proportion of 23.7% to the particle size range of 1 to 1.5 mm and a proportion of 11.7% to the particle size range of 2.0 to 2.5 mm. Unlike the previous example, the aggregate component contains no filler.

The mortar contains as binder component to 18% Portland cement CEM I 42.5 RHS / NA, 1.6% microsilica powder 940 U-S and 5% electro-filter ash.

As a modifying polymer component, the mortar contains 2.5% of a redispersible, Venylazetat-ethylene copolymer polymer dispersion powder.

As an additive, 0.03% of the mortar contains only one defoamer.

The processed mortar having the composition described above has a further improved corrosion resistance over the mortar according to Example 1. The residual compressive strength after a storage period of 14 days at a pH of 0 is 67.7%. After storage for 70 days at a pH of 1, the residual compressive strength is 84.1%. The mortar fulfills the requirements of the so-called Hamburger Sielbaurichtlinie, which even requires only 55% and 75% for the corresponding values of residual compressive strength.

The corrosion depth is 3.6 mm after a storage period of 14 days at a pH of 0, it is 1.7 mm after 70 days at a pH of 1 and 1.0 mm after 166 days of storage at a pH Value of 3. The Hamburg Sielbau-Guideline permits 5.2 mm for the 14-day storage and 2.7 mm for the 70-day storage.

The mortar meets all the requirements of DIN EN 1504, part 3 , in class R4. It also meets the requirement for exposure class XA3.

The water penetration depth is 2 mm after 3 days at 5 bar water pressure. In comparison, the penetration depth in WU concrete is 50 mm. The capillary water absorption is 0.02 kg / (qm · h) ^0.5 . The corresponding guideline of the EN 1504/3 is 0.5 kg / (qm · h) ^0.5 .

A low modulus of elasticity ensures low tension and thus easy connection to concrete to be rehabilitated.

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited non-patent literature

• DIN EN 1504-3. [0021]
• DIN EN 1504, Part 3 [0028]
• EN 1504/3 [0029]

Claims (10)

Acid-resistant mortar comprising an aggregate component, a binder component and a modifying polymer component, characterized in that the aggregate component has broken limestone as the main constituent. Mortar according to claim 1, characterized in that the main constituent consists of calcite (CaCO ₃ ) and / or dolomite (CaMgCO ₃ ). Mortar according to claim 1 or 2, characterized in that the aggregate component also contains quartz sand in addition to the main constituent of broken limestone. Mortar according to one of claims 1 to 3, characterized in that the binder component as a main component Portland cement, in particular CEM I. Mortar according to Claim 4, characterized in that the Portland cement is sulphate-resistant, C3A-free or at least -poor Portland cement. Mortar according to claim 4 or 5, characterized in that the binder component in addition to the said main constituent silica fume and / or a latent hydraulic, reacting in connection with cement building material. Mortar according to claim 6, characterized in that the building material comprises fly ash. Mortar according to one of claims 1 to 7, characterized in that the modifiable polymer component comprises a redispersible polymer dispersion powder. Mortar according to one of claims 1 to 8, characterized in that the modifiable polymer component comprises a vinyl acetate-ethylene copolymer. Mortar according to one of claims 1 to 9, characterized in that the grain sizes of the broken limestone are in the range of 0.5 mm to 4 mm, preferably 2 mm.