Compositions: coating or plastic – Coating or plastic compositions – Inorganic settable ingredient containing
Reexamination Certificate
2002-06-03
2004-03-16
Wood, Elizabeth D. (Department: 1755)
Compositions: coating or plastic
Coating or plastic compositions
Inorganic settable ingredient containing
C106S804000, C106S805000, C106S823000, C536S114000
Reexamination Certificate
active
06706112
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates to cementitious mortars. The present invention particularly relates to cementitious mortars including additives that improve processing.
2. Description of the Prior Art
It is well known to use cementitious mortars as adhesives or jointing compositions in the building industry, particularly to adhere tiles or ceramics in general, vertically or horizontally, to plane surfaces of different kinds, such as to concrete, plywood or brick surfaces. Such cementitious mortars generally consist of cement mixed with a variable amount of sand. Immediately prior to use, a proper amount of water is added to the mixture, making it workable and allowing the spreading of thin strata of mortar on the back side of the tile or object that is to be applied.
The curing of such a mortar, also commonly referred to as “setting” begins as soon as the mortar is admixed with water and will result in its complete hardening and its exhibiting those physical and mechanical features that allow the stable and lasting adhesion of the tile to the surface to which it is applied. Setting is a rather complex chemical process that leads to polymeric inorganic structures whose strong reciprocal interactions result in the formation of solid and strong masses and in the above said macroscopic effects. The hardening of the mortar permits its strong adhesion both to the tile and to the underlying surface.
In the setting process, many features are of importance and influence not only the speed at which setting occurs but also its final effectiveness, i.e. its solidity. Among these features of fundamental importance are the content of water and the capability of the composition to retain the proper amount of water during the whole setting process. It is important that the mortar retain sufficient water until all the desired physical characteristics are obtained.
There are several potential problems experienced by those installing tile using mortar. In practice, all the surfaces to which tiles are generally applied are porous and absorbent. As such, and the porous and absorbent surfaces absorb water from the mortar in the area of contact, thus creating defects in the setting which may at some point in time result in the separation of the tile from the surface to which it is attached.
Another problem encountered by tile installers is a too rapid hardening of the mortar that prevents the adjustment of the tiles during their laying. This problem is called “lack of open time” and/or “lack of adjustability time”.
Yet another problem encountered by tile installers occurs when the content of water becomes excessive, even if only locally or because of a lack of homogeneity of mixing. In such cases, setting becomes too slow due to a too flowing mixture. If this occurs, then the tile tends to slip down, dragged down by its own weight, and the resulting application becomes imprecise and difficult and working time grows longer.
Another issue in the handling of mortar is the fact that water in the mortar mixture acts as a lubricant for the solid particles when mortar is spread on the surface of the object to which it is to be applied. The proper amount of water gives to the mixture the “pastiness” or “creaminess” suitable for a uniform, homogeneous and easy laying. The Theological characteristics of the final mixture are very important and they depend on the kind and on the amount of the different components in the mixture.
The rheology of a mixture of sand, cement, and water is not suitable for use as a mortar because of the lack of the above-mentioned characteristics, and more generally, because of its poor processing. To overcome these problems additives are used in the formulation of mortars acting as retention aids and rheology modifiers. These additives are generally synthetic or semi-synthetic polymers, usually chemically modified natural polymers, exhibiting the specific characteristic of bonding and coordinating a large amount of water once they are dissolved in water.
These products, and among these in particular cellulose ethers, are highly purified products whose preparation requires many sophisticated and complex purification steps. They are rather expensive products.
In literature many mixtures are described for use in cementitious mortars, such as in U.S. Pat. Nos. 4,501,617; 5,366,550; 4,065,319; 5,575,840; 4,939,192; 5,753,036; 4,525,500; 4,402,752; 4,846,889; 5,432,215; and U.S. Pat. No. 4,487,864; wherein mixtures are also described whose components show synergic effects. In particular, in U.S. Pat. No. 4,487,864 and in U.S. Pat. No. 5,432,215; guar derivatives are cited among the natural products capable of increasing the viscosity of cementitious mortar, but it is taught to use them in combination with other rheology modifiers to reach the desired levels of viscosity and water retention.
It would be desirable in the art of preparing mortars for attaching tiles to prepare such mortars using additives that improve the processing of such mortars. It would be particularly desirable to use such additives that are low in cost and provide for other advantages over conventional additives.
SUMMARY OF THE INVENTION
In one aspect, the present invention is a cementitious mortar additive including a hydroxyalkyl guar derivative having a molar substitution of from about 0.7 to about 3.
In another aspect, the present invention is a dry cementitious mortar composition including a hydroxyalkyl guar additive having a molar substitution of from about 0.7 to about 3.
In yet another aspect, the present invention is a cementitious mortar prepared by admixing a dry cementitious mortar including a hydroxyalkyl guar mortar additive having a molar substitution of from about 0.7 to about 3, and an amount of water of from about 10 to about 45 parts by weight for 100 parts by weight of dry cementitious mortar composition.
DETAILED DESCRIPTION OF THE PREFERRED EMBODIEMENTS
The hydroxyalkyl guar derivatives are semi-synthetic derivatives, which due to their low production cost are desirable as replacements for other products now in use. Guar, or guar gum, is a polysaccharide belonging to the family of galactomannans and is extracted from a leguminosae, “Cyamopsis Tetragonolobus”, that grows in the semi-dry region of tropical countries, particularly in India and in Pakistan. Its hydroxyethyl and hydroxypropyl derivatives (respectively HEG and HPG) are commonly employed in the textile industry as printing paste thickeners, in the paints and coatings industry as rheology modifiers, in the drilling industry, in paper and explosives production and in other industry sectors (Industrial Gums 3rd Ed., 1993, Academic Press Inc., pp 199-205).
The polysaccharidic molecule of guar consists of a main linear chain of poly-mannose bearing branches of galactose units in a molar ratio of about 2:1. The products commercially available generally have a molar substitution equal or less than 0.4 and a molecular weight normally of from about 200,000 to about 500,000 daltons. For the purposes of the present invention, molar substitution, that is the average number of moles of alkylating agent added per monosaccharidic unit, is abbreviated “MS.”
The most common substituent groups of conventional guar derivates are the 2-hydroxyethyl and the 2-hydroxypropyl groups that are respectively obtained by the reaction with ethylene oxide and propylene oxide. Such traditional guar derivatives do not possess the proper characteristics to formulate a composition for use in cementitious mortars. Evidences of their unsuitability have also been pointed out by well known laboratory tests, by comparing said products with the commonly used cellulose ethers.
The main critical characteristic of a cementitious mortar is its adhesion strength. More specifically, the initial adhesion of cementitious compositions including hydroxyalkyl guar derivatives with a molar substitution equal or smaller than 0.4, measured according to EN standard 1348, is 30-50% lower than similar cementitious compositions including ce
Bassi Giuseppe Li
Margheritis Giampietro
Pfeiffer Ugo Claudio
Sironi Enrico
Lamberti SpA
Wood Elizabeth D.
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