Stock material or miscellaneous articles – Composite – Of silicon containing
Reexamination Certificate
1999-01-05
2002-12-03
Jones, Deborah (Department: 1775)
Stock material or miscellaneous articles
Composite
Of silicon containing
C427S421100
Reexamination Certificate
active
06489032
ABSTRACT:
This invention relates to membranes for use in the waterproofing of cementitious structures.
In the provision of cementitious structures, such as the building of tunnels by boring or excavating and then shotcreting, there is often a need to provide waterproofing. This is typically achieved either by providing drainage or by firstly injecting fissures in the rock with materials such as cement, microcement and reactive resin, this being followed by a layer of shotcrete. To this layer is applied a waterproof membrane, and to this membrane is applied a further layer of shotcrete or in situ concrete. The waterproof membrane is typically a prefabricated sheet of waterproof polymeric material which is anchored in place by, for example, anchoring bolts. The result is thus a “sandwich” construction. Sometimes there may be applied by in situ placing or spraying a further layer of concrete with reinforcing (fibres or mesh), or this reinforcing may be incorporated into the final concrete coating.
The labour intensity of such a method, plus the fact that the existing membranes have not been wholly satisfactory, particularly with respect to leaking, has led to the search for alternatives. Recently, attempts have been made to spray on a suitable membrane. These have used a two-pack polyurethane material, but these have suffered from drawbacks such as complicated application, toxicity problems (from the isocyanate curing agents), bonding problems to wet shotcrete and inhibition of polyurethane formation because of high tunnel humidity has prevented the obvious potential benefits of such a method being realized.
It has now been found that it is possible to provide a suitable membrane by means of a method which avoids most or even all of the drawbacks hereinabove mentioned. There is therefore provided, according to the present invention, a process of providing a waterproof concrete structure comprising the steps of
(a) providing a primary layer of a concrete composition on a support;
(b) spraying on to this concrete composition a waterproofing layer; and
(c) applying to the waterproofing layer a layer of a concrete composition;
characterized in that the waterproofing layer is provided by a composition which comprises as a binder an aqueous dispersion of coalescable particles of thermoplastic polymer.
The invention further provides a waterproof sandwich concrete structure comprising two layers of concrete separated by a coherent intermediate polymeric layer whose binder is coalesced particles of thermoplastic polymer.
By “support” is meant a untreated, water-permeable surface to which the waterproof concrete structure of this invention is applied. This will usually be a rough rock surface, but it may equally well be a man-made surface, such as a ceiling. The concrete compositions of steps (a) and (c) hereinabove described may be the same or different. In the case of the concrete composition of the primary layer (a), the scope of this term is considered to encompass not only simple concrete compositions (cold sprayed or prefabricated) but also such known variants as concrete followed by a leveling or smoothing layer of a spray mortar (up to 4 mm).
By “binder” is meant a material which on drying forms a coherent, continuous film and by “thermoplastic” is meant a material which does not react to form a crosslinked structure. By “coalescable particles” is meant particles of a film-forming suspension or emulsion which, on the removal of the continuous medium in which they are dispersed, at least partially merge to form a continuous, coherent Mm The polymer dispersions which are useful in this invention are thus similar in nature to the film-forming aqueous dispersions which are used, for example, as film-forming media in aqueous “emulsion” household paints. Included in this definition of “binder” are compositions which include thermoplastic coalescable particles and cement.
The aqueous dispersion of coalescable thermoplastic polymer particles may be chosen from a wide range of materials known to the art, the nature of the polymer itself being unimportant. Thus, for example, suitable polymers include polyurethanes, polyesters, vinyls and acrylics. Particularly suitable polymers are addition polymers derived from ethylenically-unsaturated monomers by addition polymerisation. Particularly suitable materials within this group are those which have a glass transition temperature (Tg) such that they remain in the “rubbery” condition under conditions of use, those having a degree of elastomeric properties being particularly desirable. It is preferred that the Tg be below 15° C., more preferably below −15° C. The weight solids contents of such dispersions typically lie within the range of 30-60%. Specific examples of suitable materials include polyurethanes, styrene-butadiene copolymers, ABS (acrylonitrile-butadiene-styrene) polymers, acrylonitrile-butadiene copolymers, styrene-acrylic copolymers, polsulphide dispersions, polyurethane-acrylic dispersions, polyisoprene and PVC latexes and copolymers of vinyl chloride and/or vinyl acetate with acrylic monomers such as (meth) acrylic acid and esters thereof Materials such as bitumen emulsions may be used in conjunction with these materials, but as such materials do not coalesce, they should not comprise more than 50% by weight solids of the binder. This list is not exhaustive, and the skilled person equipped within the concept of this invention will readily be able to identify other suitable materials. Many such materials are available commercially and examples of suitable commercial materials include those sold by BASF AG. under the trade mark “Acronal” and those sold by Synthomer under the trade mark “Synthomer”.
In addition to the aqueous dispersion, the composition may include other ingredients. One especially useful ingredient is filler. This not only “extends” the composition, but also roughens the surface, thus providing a “key” for a subsequently applied cementitious composition. Its presence is preferred. Typical examples of suitable fillers include quartz sand and quartz flour of average diameters in the range of from 0.04-1.5 mm, as well as dolomite, talc, mica, barytes, iron oxide, titanium dioxide, rubber and plastics granules, lightweighted aggregates and glassy fumace residues such as “holospheres”. Fibres of steel, glass or polymeric material can also be used, preferred examples of polymeric fibre being those of thermoplastic material, especially polyethylene and polyacrylonitrile, preferably with length of from 0.2-12 mm and surface area of from 6-8M
2
/g.
There may also be added to the compositions of this invention standard ingredients in art-recognized quantities. Typical examples of additives whose presence may be beneficial include flow-enhancing agents, defoamers, dispersants, colouring materials, wetting agents, rheology modifiers and catalysts.
When there is no filler present, a composition for use in this invention may comprise 100% of dispersion. When desired, additives may comprise up to 5%, preferably 0.1-5% by weight (calculated on active ingredients of additive per weight of liquid dispersion). When filler is present (the preferred case), the composition preferably comprises 20-80% (more preferably 30-50%) by weight dispersion, 79.9-15% (more preferably 69.9-15%) by weight filler, and 0.1-5% by weight additive(s).
The weight of dispersion is the weight of the liquid dispersion and the weight of the additive is the weight of active ingredient.
The composition may be applied by spraying to a primary layer concrete. This is preferably shotcrete, but it may be other suitable cementitious compositions, such as polymer concrete. The membrane layer applied may vary in thickness, depending on the material used, the conditions of application and the properties (such as crack bridging ability) desired, but as a general rule it should have a thickness of 2-15mm, preferably 2-6 mm. The application may be done in a single spraying pass or in several passes. To this sprayed composition is applied a further layer of cementitious compositio
Dischö Karoly
Oppliger Max
Blackwell-Rudasill G.
Fish & Richardson PC
Jones Deborah
MBT (Schweiz) AG
LandOfFree
Cement structure containing a waterproofing layer does not yet have a rating. At this time, there are no reviews or comments for this patent.
If you have personal experience with Cement structure containing a waterproofing layer, we encourage you to share that experience with our LandOfFree.com community. Your opinion is very important and Cement structure containing a waterproofing layer will most certainly appreciate the feedback.
Profile ID: LFUS-PAI-O-2936398