AU8539998A

AU8539998A - Surface covering material

Info

Publication number: AU8539998A
Application number: AU85399/98A
Authority: AU
Inventors: Kenneth Alfred Joubert; Hendrik Johannes Van Vuuren
Original assignee: EVERMINE Ltd
Current assignee: EVERMINE Ltd
Priority date: 1997-06-20
Filing date: 1998-06-18
Publication date: 1999-01-04
Also published as: CN1261392A; EP1005441A2; EA200000056A1; AP2000001737A0; BR9810446A; CA2241167A1; TR199903130T2; PL337830A1; WO1998058886A3; ZA985350B; EA001141B1; WO1998058886A2

Description

WO 98/58886 PCT/EP98/03737 Surface Covering Material This invention relates to surface covering materials. In our South African Patent Specification No 94/0532 there is described such surface covering 5 materials. Although these materials have many excellent properties, they have a weakness when used underground. The problem in mines is the high humidity in the atmosphere and the fact that there is often very little air movement. In this situation, it has been found that 10 the aforesaid materials take a fair amount of time to dry and cure which may be unacceptable in certain circumstances. According to one aspect of the present invention there is provided a surface covering material comprising 15 a mixture of a cementitious constituent, comprising a highly water absorbent cement blend, with a the second constituent which incorporates a water based polymer emulsion. This material can be applied on to for example rock and coal surfaces (for convenience both 20 rock and coal will further in this specification be referred to as "rock") in tunnels, stopes and pillars as well as around base plates of rock bolts to inhibit the breaking away of the rock covered thereby. The term "highly water absorbent" should be con 25 strued in accordance with the following:- Ordinary Portland cement ("OPC") will absorb water in the WO 98/58886 PCT/EP98/03737 2 following proportions, viz 100 gm OPC to about 38 gm water. A "highly water absorbent cement blend" will absorb at least its own mass of water. The cementitious constituent preferably will absorb at least three times 5 its mass of water and in a preferred embodiment will absorb five times its mass of water. Because the cementitious constituent is highly water absorbent, it can better absorb the liquid component of the second constituent. Furthermore for 10 this reason the cementitious constituent can overcome the problem which would otherwise be encountered namely that the polymer coats a large proportion of the granules of the solid constituent thereby preventing the formation of an adequate amount of ettringite. 15 The second constituent may be a liquid constituent. Alternatively the second constituent may be a dry material. The surface covering material is preferably applied by being sprayed on to the rock surface. For this 20 purpose the constituents are preferably mixed prior to being sprayed on to the rock surface. The mixture will normally have a limited pot life and therefore will have to be sprayed within a certain period, normally about twenty to thirty minutes after mixing.

WO 98/58886 PCT/EP98/03737 3 Where the second constituent is a dried material, the two constituents are conveniently mixed or blended together and the water added to the mixture in the appropriate amount. Alternatively, the mixture of the 5 dry materials and water may be sprayed on to the surface by a process similar to the "Gunite" process. The cementitious and second constituents are preferably mixed in the ratio of 1:3. (All ratios and percentages referred to in this specification are on the 10 basis of mass:mass.) The cementitious constituent preferably comprises high-alumina cement, OPC and anhydrite gypsum (anhydrous calcium sulphate) forming the bulk of the 15 mixture together with soda ash, lithium carbonate and sodium fluoride and conveniently in addition Natrasol0250HR or Cellosize@QP 52000. The items men tioned above as forming the bulk of the mixture may constitute 99% or more of the mixture. We have found 20 that the minor constituents react with the major constituents to provide the highly water absorbent characteristic to the cementitious constituent. The OPC may comprise between 40% and 52% and preferably about 47% of the cementitious constituent. 25 The high alumina cement may comprise between 18% and 28% and preferably about 23% of the cementitious constitu ent. The anhydrite gypsum may comprise between 27% WO 98/58886 PCT/EP98/03737 4 and 31% and preferably about 29% of the cementitious constituent. The sodium fluoride is preferably a light 95% technical grade sodium fluoride. 5 The soda ash should be finely ground soda ash. The soda ash and the sodium fluoride may each comprise between 0,25% and 0,35% and preferably about 0,3% of the cementitious constituent. The lithium carbonate and Natrasol (or Cellosize) may each comprise between 0,091, 10 and 0,15% and preferably about 0,1% of the cementitious constituent. Preferably the second constituent further comprises a fire retardant. A preferred fire retardant comprises antimony trioxide and chlorinated paraffin, the latter 15 preferably being that sold under the trade name "Cere clorm 70". This fire retardant preferably const-itutes about 10% to 20% of the second constituent. The chlor inated paraffin conveniently constitutes between 8% and 12%, preferably between 10% and 11% and most 20 preferably about 10,7% of the second constituent. while the antimony trioxide conveniently constitutes between 3% and 7%, preferably between 5% and 5,5% and most preferably about 5,4% of the second constituent. The emulsion is preferably an acrylic enul:lsicn 25 binder, conveniently a vinyl acetate ethylene copolymer WO 98/58886 PCT/EP98/03737 5 and preferably that which is commercially available under the trade name "Airflex'" 300". This material forms a binder for the applied surface covering layer giving improved flexibility, elasticity and tensile 5 strength to the cured surface covering layer. In addition it provides improved adhesion to the rock surface. The vinyl acetate ethylene copolymer conveni ently constitutes between 60% and 75%, preferably between 65% and 70% and most preferably about 67,6% of 10 the second constituent A plasticizer is preferably included to improve the flexibility and resilience of the material once it has cured. In particular the plasticizer will assist in providing resilience and flexibility over small radii 15 such as are encountered at rock edges during rockmass deformations under slow and rapid loading conditions. A preferred plasticizer is dibutyl phthalate. The plasticizer may constitute between 5% and 10%, preferab ly between 7% and 8% and most preferably about 7,8% of 20 the second constituent. A bactericide for preventing growth of bacteria and enzymes may be provided. This is conveniently in the form of the material commercially obtainable under the trade name "Metatin' G.T.". Only a small amount of the 25 bactericide need be added and this may be less than 1%, conveniently between 0,1% and 0,2% and preferably about 0,13% of the second constituent.

WO 98/58886 PCT/EP98/03737 6 An anti-foaming agent is also preferably added to prevent foaming and consequent trapping of air in the product and resultant reduction in the strength of the set product. Two preferred anti-foaming agents are 5 BEVALOID* 513 and NEPCOO ADW. Only a small amount of such agent need be provided and this may be less than 0,5% and conveniently between 0,1% and 0,3% of the second constituent. The amount of anti-foamino agent can be adjusted and in particular supplemented on 10 inspection during the mixture of the product. The covering material is preferably provided with a thickener which preferably forms thixotropic viEcos;ity build and helps to prevent sag. Preferably this is provided in the second constituent. A preferred 15 thickener is ATTAGEL* 50. It is preferably added as a 150 aqueous suspension. This suspension solution may comprise between 2% and 4% and preferably about 2,7w of the second constituent. The second constituent may further comprise a rela 20 tively small amount of water constituting conveniently between 2% and 10%, more conveniently betweEn 4,5% and 6% and preferably about 5, 4% of the mass of the second constituent. Alternatively, as mentioned above, the second constituent may be a dry material formed 25 preferably by drying the emulsion as well as any! ocher liquid containing materials and then blending this dried product with any further solid materials.

WO 98/58886 PCT/EP98/03737 7 According to another aspect of the invention ther is provided the second constituent of the surface covering material set out above. According to a further aspect of the invention there is provided the 5 cementitious constituent of the surface covering material set out above. According to yet another aspect of the invention there is provided a method of reinforcing a rock -urface in a mine comprising applying a layer of the above 10 material to the said surface and permitting it t o set. Examples of the surface covering material will no;2 be described by way of example. EXAMPLE I A surface covering material comprises a fir3t cem 15 entitious constituent and a second liquid constituent. A 1000 kg mix of the solid constituent comprises - WO 98/58886 PCT/EP98/03737 8 Description Mass in kg High Alumina cement 230,0 23,0 OPC 470,00 47,0 Anhydrite Gypsum (anhydrous Calcium sulphate) 292,0 29,2 5 Finely Ground Soda Ash E.P./V.S.P 3,0 0,3 Sodium Fluoride 95% light tech nical grade 3,0 0,3 Lithium carbonate (99% pure) 1,0 0,1 10 NatrasolO 250 H.R. 1,0 0,1 1000 100,0 We have found that 100 gm of this cementitious mixture will absorb at least 500 gm water. It is therefore highly water absorbent. The liquid constituent comprises:- WO 98/58886 PCT/EP98/03737 9 Description % Airflex 300~ Emulsion binder 67,57 dibutyl phthalate plasticizer 7,81 Antimony trioxide flame retardant 5,38 Cereclor 70~ flame retardant 10,77 5 15% aqueous sol ution of Attagel~ anti-sag agent 2,69 Acticide bactericide 0,13 Anti-foam 0,26 Water 5,39 100,00 10 The components of the second constituent are mixed together in a high speed mixer until the flame retardants are dispersed, i.e. for between ten to twenty minutes at ambient temperature. The cementitious and liquid constituents are now 15 mixed together at ambient temperature in a hopper of a special sprayer in a ratio of three parts liquid constituent to one part cementitious constituent. The mixture is stirred continually until it is used. The mixture will set within about thirty minutes and 20 therefore should be used within about twenty minutes of mixing. The mixture is sprayed on to the rock surface to provide a layer of not less than 2,0 mm thick. The WO 98/58886 PCT/EP98/03737 10 spraying rate of the mixture is between two and three hundred litres per hour. We have found that the cement constituent absorbs the water in the second constituent so that the surface 5 layer will dry to a dry film even in conditions of 100% humidity so that it, the surface layer, will cure sufficiently to be self-supporting within fifteen minutes and to be able to give initial support for the rock within two to three hours. When fully cured, which 10 will normally take about twenty eight days, the layer will have a uni-axial tensile strength of not less than 1,5 mega-pascals. The layer is also adequately flexible having an elongation of between fifty and sixty per cent. These characteristics enable the layer to 15 form a confinement for the rock to control the disinte gration of the rock surface and to improve stability of the rock mass. This is because the flexible layer will assist in dissipating energy release, will assist in controlling the rock deformation and will keep the key 20 blocks in place thereby assisting in reducing rock falls and further will assist in holding the rock coherently even when there is a high rate of energy release. Of course this strength is limited and under extremely high forces the layer will fail. It, the cured layer, 25 will have adequate adhesion to most rock substrates found in the mines.

WO 98/58886 PCT/EP98/03737 11 The spraying machinery and the hopper can be cleaned with water and the waste water can run away and join other water in the mines. It is not necessary to provide toxic liquid for the cleaning of the parts. The 5 constituents for producing the surface covering layer and the mechanical equipment for this purpose are relatively inexpensive. EXAMPLE II The constituents are formed as in Example I. A 10 spray nozzle fitted with a mixing device on its inlet is used. The mixing device comprises a static spiral mixer comprising spiral segments arranged so that each consecutive segment rotates the mix passing through tube in a direction opposite to that of the previous segment. 15 The constituents are fed separately to the nozzle and the mixing device blends the two constituent prior to entering the spray nozzle which now applies the blend to the surface of the rock to be coated. EXAMPLE III 20 The cementitious constituent is as described in Example I. A blend of liquid polymers and plasticizers are dried in an air drier to remove the water. This forms a dry powder. The dry powder is then blended with the remaining solids of the second constituent.

WO 98/58886 PCT/EP98/03737 12 The cementitious and second constituents are then blended with one another. The hydrating water is now added to the mixture in the mine at the site where it is required to coat the rock. The product is stirred 5 and then applied as mentioned in Example I. EXAMPLE IV The dry mixture of the first and second constituents is prepared as described in Example III. The dry mixture and water are applied under pressure to 10 the rock surface by means of a "Gunite" nozzle. This nozzle is fitted inside with a perforated manifold through which water is introduced under pressure to be mixed with the solid material that is pneumatically conveyed to the nozzle. The mixture is applied to the 15 rock surface. The rock covering materials applied in accordance with Examples II, III and IV have the same advantages as those as described in Example I. The invention is not limited to the precise details 20 set forth in the examples. The constituents of the material may vary or be altered. For example hydrophil lic fibres or glass fibres of between say 0,5 and 12 mm may be added to the material to increase the tensile strength of the cured layer especially in the post 25 failure stage. Alternative flame retardants, bacteri- WO 98/58886 PCT/EP98/03737 13 cides and anti-foaming agents may be used. Further additional water may be added to lower the viscosity of the second constituent. If desired a foaming agent may be added to the 5 second constituent (and the anti-foaming agent removed) so that a foamed layer of the material may be sprayed on to the cured or partially cured layer. This foamed layer may be about thirty five to seventy five and preferably fifty millimetres thick. The foamed layer 10 will provide thermal insulation for the rock walls and will inhibit heat from the rock entering into the working spaces of the mine.

Claims

1. A surface covering material comprising a mixture of a cementitious constituent and a second constituent characterised in that the cementitious constituent comprises a highly water absorbent cement blend and the second constituent incorporates a water based polymer emulsion.

2. A material as claimed in claim 1 characterised in that the cementitious constituent will absorb its own mass of water.

3. A material as claimed in claim 2 characterised in that the cementitious constituent will absorb about five times its own mass of water.

4. A material as claimed in claim 1, 2 or 3 characterised in that the cementitious mixture comprises high-alumina cement, ordinary portland cement and anhydrite gypsum (anhydrous calcium sulphate) forming the bulk of the mixture together with soda ash, lithium carbonate and sodium fluoride.

5. A material as claimed in claim 4 characterised in that it further comprises Natrascl*250HR or Cellosize*QP

52000. WO 98/58886 PCT/EP98/03737 15

6. A material as claimed in claim 4 or 5 characterised in that the high alumina cement, ordinary portland cement and anhydrite gypsum constitute 99% or more of the cementitious constituent.

7. A material as claimed in claim 4, 5 or 6 character ised in that the ordinary portland cement comprises between 40% and 52% and preferably about 47% of the cementitious constituent.

8. A material as claimed in claim 4, 5, 6 or 7 charac terised in that the high alumina cement comprises between 18% and 28% and preferably about 23% of the cementitious constituent.

9. A material as claimed in any one of claims 4 to 8 characterised in that the anhydrite gypsum comprises between 27% and 31% and preferably about 29% of the cementitious constituent.

10. A material as claimed in any one of claims 4 to 9 characterised in that the soda ash comprises between 0,25% and 0, 35% and preferably about 0,3% of the cementitious constituent.

11. A material as claimed in any one of claims 4 to 10 characterised in that the sodium fluoride comprises between 0,25% and 0,35% and preferably about 0,3% of the cementitious constituent. WO 98/58886 PCT/EP98/03737 16

12. A material as claimed in any one of claims 4 to 11 characterised in that the lithium bicarbonate comprises between 0, 09% and 0, 15% and preferably about 0, 1% of the cementitious constituent.

13. A material as claimed in any one of claims 4 to 12 characterised in that the Natrasol comprises between 0, 0o9% and 0, 15% and preferably about 0, 1% of the cementitious constituent.

14. A material as claimed in any one of the preceding claims characterised in that the second constituent further comprises a fire retardant.

15. A material as claimed in claim 14 characterised in that the fire retardant comprises antimony trioxide and chlorinated paraffin.

16. A material as claimed in any one of the preceding claims characterised in that the emulsion is an acrylic emulsion binder.

17. A material as claimed in claim 16 characterised in that the emulsion is a vinyl acetate ethylene copolymer.

18. A material as claimed in claim 17 characterised in that the vinyl acetate ethylene copolymer constitutes between 60% and 75%, preferably between 65% and 70% and most preferably about 67,5% of the second constituent. WO 98/58886 PCT/EP98/03737 17

19. A material as claimed in claim 18 characterised in that a plasticizer is included.

20. A material as claimed in claim 19 characterised in that the plasticizer is dibutyl phthalate.

21. A material as claimed in claim 19 or 20 character ised in that the plasticizer constitutes between 5% and 10%, preferably between 7% and 8% and most preferably about 7,8% of the second constituent.

22. A material as claimed in any one of the preceding claims characterised in that a bactericide for prevent ing growth of bacteria and enzymes is provided.

23. A material as claimed in any one of the preceding claims characterised in that an anti-foaming agent is added to the second constituent.

24. A material as claimed in claim 23 characterised in that the foaming agent comprises less than 0,5% and conveniently between 0,1% and 0,3% of the second constituent.

25. A material as claimed in any one of the preceding claims characterised in that the covering material is provided with a thickener which preferably forms thixotropic viscosity build and helps to prevent sag. WO 98/58886 PCT/EP98/03737 18

26. A material as claimed in claim 25 characterised in that the thickener is provided in the second consti tuent.

27. A material as claimed in claim 26 characterised in that the thickener is added as a 15% aqueous solution which preferably comprises between 2%1 and 4% and preferably about 2,7%1 of the second constituent.

28. A material as claimed in any one of the preceding claims characterised in that the first and second constituents are mixed in the proportions of one to three.

29. For use in a covering material as claimed in claim 1, a cementitious constituent characterised in that it comprises high-alumina cement, ordinary portland cement and anhydrite gypsum (anhydrous calcium sulphate) together with soda ash, lithium carbonate and sodium fluoride.

30. A cementitious constituent as claimed in claim 29 characterised in that it further comprises Natrasol0250HR or Cellosize*QP 52000.

31. For use in a covering material as claimed in claim 1, a second constituent characterised in that it comprises a liquid constituent. WO 98/58886 PCT/EP98/03737 19

32. For use in a covering material as claimed in claim 1, a second constituent characterised in that it comprises a dry solid constituent.

33. A method of reinforcing a rock surface in a mine characterised in that a layer of the surface covering material as claimed in any one of claims 1 to 28 is applied to the said surface and permitted to cure.

34. A method as claimed in claim 33 characterised in that the surface covering material is applied to the said surface by being sprayed on to the surface.

35. A method as claimed in claim 34 when dependant upon claim 32 characterised in that the dry constituents and water are sprayed on to the said surface by a "Gunite" process.