Hydraulic and earth engineering – Underground passageway – e.g. – tunnel – Lining
Reexamination Certificate
2000-04-20
2004-07-13
Shackelford, Heather (Department: 3673)
Hydraulic and earth engineering
Underground passageway, e.g., tunnel
Lining
C405S150100
Reexamination Certificate
active
06761504
ABSTRACT:
This invention relates to the cladding of partially-overhanging substrates.
By “partially-overhanging substrates” is meant simply a substrate part of which overhangs. One example is a tunnel bored in rock, which has an overhanging roof and non-overhanging walls, but the substrate can equally well be a construction, for example, an arch of concrete, brick, stone or other material.
The exposed rock surfaces of tunnels often require cladding, this cladding generally being concrete, which may be sprayed (so-called “shotcrete”), cast in formwork or placed in prefabricated sections which are then grouted. One of the problems frequently encountered is water coming through and running down the substrate during the construction. The standard way of dealing with this problem is the application to the substrate of a drainage means. This is simply something which provides on the substrate a plurality of drainage channels, so that the water is directed away from the substrate to provided drainage outlets. The sequence therefore is usually as follows; apply a drainage means, followed by a waterproof membrane, followed by a final layer of concrete.
The drainage means known to the art can take various physical forms. One popular type comprises an open mesh made of plastics material, this being generally supplemented by an at least partially waterproof covering sheet to help direct the water to the provided drainage outlets and prevent it, in the case of high water flow, from running straight through. Another common type is a sheet of plastics material (typically of PVC or PE) which provides drainage channels. In one such material, the sheet comprises grooves through which water can run. In another variant, there is formed on the sheet a series of depressions which appear as protrusions on the other side of the sheet. These protrusions hold the sheet off the substrate and allow water drainage. Such drainage means are fixed to the substrate by any convenient means (adhesive, nails, rock anchors). To this drainage means is usually attached a waterproof membrane. This is generally a series of overlapping sheets of thermoplastic material which is applied to the drainage means and secured in place by melting the sheet around bolts previously applied through the drainage means into the rock for this purpose, the sheets then being joined by welding to form a single waterproof sheet. A final layer of concrete is applied to them by any of the methods hereinabove described.
In practice, this method suffers from a variety of drawbacks. It is difficult to weld the thermoplastic sheets together with complete success, so that there can be imperfect joins where water can come through. Moreover, such sheets may be damaged in handling and application and consequently suffer from leaks. In any case, the work of applying such sheets is time-consuming and difficult in a tunnel, as is the work of erecting the drainage means itself. In all cases, where other fixtures such as railway catenary supports are required, either these have to be driven through the drainage means into the rock (thereby providing a potential point of water entry), or the final concrete layer must itself be strong enough to support them, which usually means using a thickness of concrete not otherwise required.
It has now been found that such water problems can be substantially or even completely overcome by a particular structure. This invention therefore provides a cladding on a partially-overhanging substrate which comprises, in sequence starting from the substrate;
(i) a drainage means;
(iii) a waterproofing membrane which has been applied thereto by spraying; and
(iv) a layer of concrete.
The invention further provides a method of providing a waterproof cladding on a partially-overhanging substrate, comprising the application to the substrate of the following elements in sequence;
(i) a drainage means;
(iii) a waterproofing membrane, applied by spraying; and
(iv) a layer of concrete.
In a preferred embodiment of the invention, the substrate is given an initial layer of concrete. This is especially important when the substrate is rough, for example, as a result of blasting, and it preferably applied by means of spraying. Although it can also be done by casting or placing of prefabricated sections, shotcreting has the advantage that it conforms more exactly to the wall while providing a desirable smoother surface for the fixing of drainage means. This makes the final cladding essentially a single unit with the wall, enhancing its strength and making possible a cladding with substantially less material than formerly used.
The drainage means may be selected from any of the means of this type known to the art. A typical example is a plastics mesh to which is applied (to that side remote from the substrate) an at least partially waterproof layer. A particularly good variety of this type is a mesh to which is fixed a thin plastics impermeable sheet, on the other side of which sheet is a fibrous layer which assists in the bonding of the waterproofing membrane hereinunder described. However, there are many other types possible, and any of the art-recognised types are acceptable.
A preferred drainage means consists of two layers of “geotextile”, fibrous materials of the type hereinabove described, between which is a waterproof film. Preferably the geotextile against the rock is hydrophobic and that further removed from the rock is hydrophilic. The hydrophobic layer helps repel water and the hydrophilic layer allows a water-based sprayable membrane to penetrate well and bond thoroughly as further described hereinunder, thus helping create a composite structure. This means is supplied as a single material, a so-called “drainage fleece”. Any kind of sprayable membrane is useful in the working of this invention.
One particularly useful type of sprayable membrane is the membrane described in International Application WO 97/25484 the contents of which are incorporated herein by reference. In this case, it is a plastics material applied by spraying (a thermosetting polyurethane is described), the surface of this layer being configured in order to provide anchoring means for subsequently applied layers. This is done typically by mechanically deforming the surface before it hardens fully, or by embedding therein solid material such as stone chips.
Another particularly useful type of sprayable membrane is described in International Application WO 98/24738, the contents of which are incorporated herein be reference. In this case, the membrane is formed from a layer of coalesced particles of thermoplastic polymer laid down form an aqueous dispersion. Polyurethanes, polyesters and vinyls may be used, but the preferred materials are addition polymers of ethylenically-unsaturated monomers, more preferably, those having a glass transition temperature (Tg) of below 15° C., even more preferably below −15° C.
The weight solids contents of the aqueous dispersions from which the membranes are formed 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 mark “Acronal” and those sold by Synthomer under the trade mark “Synthomer”.
In addition to the aqueous dispersion, the composition may incl
Brandenberger Rolf
Garshol Knut Finn
Melbye Tom Arild
Schubert Peter Alexander
MBT Holding AG
Norris McLaughlin & Marcus PA
Shackelford Heather
Singh Sunil
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