Classifications

• • A—HUMAN NECESSITIES
  • A47—FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
  • A47G—HOUSEHOLD OR TABLE EQUIPMENT
  • A47G27/00—Floor fabrics; Fastenings therefor
  • A47G27/04—Carpet fasteners; Carpet-expanding devices ; Laying carpeting; Tools therefor
  • A47G27/0475—Laying carpet tiles
• • C—CHEMISTRY; METALLURGY
  • C09—DYES; PAINTS; POLISHES; NATURAL RESINS; ADHESIVES; COMPOSITIONS NOT OTHERWISE PROVIDED FOR; APPLICATIONS OF MATERIALS NOT OTHERWISE PROVIDED FOR
  • C09J—ADHESIVES; NON-MECHANICAL ASPECTS OF ADHESIVE PROCESSES IN GENERAL; ADHESIVE PROCESSES NOT PROVIDED FOR ELSEWHERE; USE OF MATERIALS AS ADHESIVES
  • C09J133/00—Adhesives based on homopolymers or copolymers of compounds having one or more unsaturated aliphatic radicals, each having only one carbon-to-carbon double bond, and at least one being terminated by only one carboxyl radical, or of salts, anhydrides, esters, amides, imides, or nitriles thereof; Adhesives based on derivatives of such polymers
  • C09J133/04—Homopolymers or copolymers of esters
  • C09J133/06—Homopolymers or copolymers of esters of esters containing only carbon, hydrogen and oxygen, the oxygen atom being present only as part of the carboxyl radical
  • C09J133/08—Homopolymers or copolymers of acrylic acid esters

Definitions

• the present invention relates to an alkaline hydrolysis resistant adhesive.
• the present invention relates to an alkaline hydrolysis resistant adhesive suitable for securing a laminated floor covering such as a carpet or carpet tile to a surface having a high pH.
• Carpets such as free-lay carpet or backed carpet tiles are typically prepared as either a tufted or a fusion bonded carpet material having a wear fibrous or pile surface from which pile yarns upwardly project.
• Carpet tiles differ from the production of ordinary tufted or other fibrous-faced carpets because there is no requirement on a typical carpet for a heavy backing layer.
• a rigid stabilized mass of a thermoplastic backing layer is typically required in order to hold down the carpet tile so that it can function as a free-lay carpet tile.
• the backing layer has a high filler content (e.g., limestone) and is employed with various scrim materials such as glass fibres, polyester or a combinations thereof, to impart dimensional stability.
• the thermoplastic backing layer is one or more polyvinyl chloride layers.
• a tufted carpet tile generally comprises a primary backing base sheet material such as polyester or polypropylene having a plurality of tufted yarns such as Nylon® through the primary backing to form a wear surface of loop or cut pile (carpet pile).
• the primary backing is used to tuft the carpet yarn into and to provide the required top cloth of the product.
• a precoat of a latex type material such as EVA (polyethylene vinyl acetate) or carboxylated styrene- butadiene-styrene may be applied on the back (underside) surface to bond the yarn to the primary backing and to aid in the securing of the primary backing to the backing layer.
• the backing layer may be comprised of a first PVC layer, a fiberglass layer and a second PVC layer (reback layer) - the first layer of PVC bonding the primary backing to the fiberglass layer, the fiberglass layer ensuring dimensional stability of the carpet tile and the second layer of PVC gluing the layers above it and providing the final backing of the carpet tile.
• the PVC layer is replaced with a bitumen layer.
• Fusion-bonded carpet generally has a similar backing to tufted carpet except that the fusion- bonded carpet has a plurality of cut pile yams of nylon or other suitable fibrous material implanted in an adhesive layer, particularly a thermoplastic such as PVC or hot-melt adhesive, which may be further laminated to a reinforcement or substrate layer of a woven or non-woven material such as fibreglass, Nylon®, polypropylene or polyester.
• the plurality of fibrous yarns are bonded to and extend generally upright from the adhesive base layer to form the wear surface.
• Carpets have many applications as a floor covering for various surfaces including wood and concrete.
• carpets are installed by applying an adhesive to the surface such as concrete, suitably as a thin film followed by positioning of the carpet on top of the adhesive and curing of the adhesive to thereby form a bond between the surface and the carpet.
• the adhesive may be applied directly to the underside of the carpet and a releasable film provided which is removed prior to use. It has been found however that with conventional pressure sensitive acrylic adhesives and where the surface has a pH of above 9 and a high moisture content, conventional adhesives break down forming excessive volatile organic compounds, such as 2-ethyl-1-hexanol, alcohols and esters.
• filament or “filaments” means strands of extreme or indefinite length.
• fused means a collection of numerous filaments which may or may not be entangled, twisted or laid together.
• textured or “texturing” means any operation of filaments which results in crimping, looping or otherwise modifying such filaments to increase cover, resilience, bulk or to provide a different surface texture or hand. It follows that a “bulked continuous filament” is a filament which has been subjected to one or more "texturing” operation(s).
• biobased is meant that the relevant material is made from substances derived from living matter.
• an alkaline hydrolysis resistant carpet adhesive comprising an n-butyl acrylate acrylic polymer.
• a method of positioning a carpet on a surface comprising:
• a carpet having an adhesive according to the first aspect applied to an underside of the carpet and a releasable protective layer attached to the adhesive.
• the present invention relates to an alkaline hydrolysis resistant carpet adhesive comprising an n-butyl acrylate acrylic polymer.
• the n-butyl acrylate acrylic polymer is suitably an aqueous dispersion of a thermoplastic acrylic polymer based on n-butylacrylate having a total solids content of about 60% and having a glass transition temperature of about -42 "C.
• the adhesive may be in an aqueous formulation.
• the butyl acrylate acrylic polymer may be combined with any crosslinked acrylic polymer,
• the polymer may be combined with an APEO (alkyl phenol ethoxylate) free acid- containing acrylic emulsion copolymer.
• APEO alkyl phenol ethoxylate
• the adhesive has a total solids content suitably in the range of 44 to 46 wt%.
• the adhesive may include additional additives such as fillers, thickeners, defoamers, antimicrobials, fungicides, biocides, pH adjusters/neutralising agents, tackifiers, surfactants, rheology modifiers, wetting agents, polymer blends and mixtures thereof.
• additional additives such as fillers, thickeners, defoamers, antimicrobials, fungicides, biocides, pH adjusters/neutralising agents, tackifiers, surfactants, rheology modifiers, wetting agents, polymer blends and mixtures thereof.
• Suitable fillers may include calcium carbonate, barium sulphate, zinc oxide, aluminium hydrate, titanium dioxide, lime, clays, recycled glass, ash or mixtures thereof. Fillers may be used in amounts up to 5wt% but in an amount not affecting surface tack properties.
• Suitably thickeners may include acrylic copolymers, alkali swellable thickeners, sodium polyacrylate, cellulosic thickeners and mixtures thereof.
• the thickeners may be included in amounts up to 10wt%, for example 2 to 10wt%.
• Suitable defoamers include oil based defoamers such as oil based without silicone defoamers.
• the defoamers may be used In amounts up to 0.2wt% for example 0.1 - 0.2wt%.
• Suitable pH adjusters/neutralising agents include sodium hydroxide, potassium hydroxide or ammonia. Amounts used will depend on the desired pH of the final formulation.
• the adhesive has a pH of from 7 to 10, for example 7 to 9.
• Suitable biocides include zinc omadine and MIT/BIT biocide (a 5% equal blend of 2-methyl- 2H-isothiazol-3-one/1,2-benzisothiazol-3(2H)-one). Other biocides may be used.
• the biocide may be used in amounts up to 0.3vtft%, for example 0.1 - 0.3wt%.
• the adhesive has a viscosity within the range of 2000 cps to 50000 cps.
• a viscosity within the range of 2000 cps to 50000 cps.
• For reliable viscosity suitably should be 2,000 cps minimum and trowellable viscosity minimum suitably 10,000 cps.
• the viscosity may be 15000 to 17000cps stirred (RVT 6/10).
• the adhesive may have a density of 0.95 to 1.15 g/cm 3 at 20°C, for example 0.95 to 1.05 g/cm 3 .
• the present invention also relates to a method of positioning a carpet on a surface comprising:
• the surface may be concrete or timber and may include a sealer or an epoxy coating on the surface.
• Sealers should suitably be of an acrylic or similar type and not contain waxes or any chemicals that will affect wetting of the adhesive.
• the surface may have a pH of above 9. In one embodiment the surface may have a pH above 10. In another embodiment the surface may have a pH above 11. In another embodiment the surface may have a pH above 12.
• the surface may have a moisture content of 5wt% or above.
• the carpet includes a primary backing having a fibrous face and an underside, wherein the fibrous face is formed from yarn tufted or implanted into the primary backing.
• the carpet may additionally include a cured precoat layer on the underside of the primary backing and a backing layer fixed to the primary backing.
• the primary backing may be a tufted fibrous layer or a fusion bonded material.
• a tufted fibrous layer When a tufted fibrous layer is used, it may be prepared by feeding the primary backing material to a conventional tufting machine which tufts fibres through interstices in the material. Tufting is typically performed such that the resulting tufts protrude from the underside face with back stitches which hold the tufts in place on the topside of the material during processing.
• the primary backing is suitably formed from a woven or non-woven synthetic or non- synthetic fibre.
• a thermoplastic backing such as a woven polypropylene backing or a non- woven polyester, with a fibrous face or wear surface such as a tufted face, and a fibrous back surface, such as a loop or tufted surface where the carpet tile is tufted is used.
• a polyester such as Lutradur® is preferably used when making a PVC backed floor covering because it does not suffer too much from shrinkage due to heat during the gelling process, thus minimizing the risk of tile uplift due to not enough drape.
• suitable backings include Nylon®, fibreglass, cotton, jute, rayon, paper, natural or synthetic rubbers, sponge or foam rubbers, polychloroprene, acrylonitrile- butadiene copolymers, ethylene-propylene-diene rubbers, petroleum resin, vinyl polymers (such as polyvinylchloride, polyvinylidene chloride, polyvinyl acetate, polyvinyl acetal, polyvinyl butyral, copolymers or mixtures thereof), polybutene resin, polyisobutene-butadiene resins and copolymers and mixtures thereof.
• Nylon® Nylon®, fibreglass, cotton, jute, rayon, paper, natural or synthetic rubbers, sponge or foam rubbers
• polychloroprene acrylonitrile- butadiene copolymers
• ethylene-propylene-diene rubbers such as polyvinylchloride, polyvinylidene chloride, polyvinyl acetate, polyvin
• the yarn may be any suitable yarn or fibrous material that can be tufted of implanted into the primary backing.
• Suitable fibrous materials and yarns may include synthetic, natural or a combination of synthetic and natural fibre, such as but not limited to polyamides like nylon, olefins like polypropylene, wool and wool blends, cotton, acrylic, acrylic-nylon blends, polyester yarns, biobased yarns and combinations and blends thereof.
• the yams/fibrous materials may be used to form face or back yam with the primary backing.
• the yarns may be dyed and may be textured.
• the fibrous material and yarns employed in the carpet tile are implanted into a material such as PVC or a hot melt adhesive which may be laminated to a substrate, such as a woven or nonwoven material, such as fibreglass, Nylon®, polypropylene or polyester.
• the primary backing layer may be precoated with latex or with another suitable precoating composition of the invention prior to applying a backing layer.
• the precoat is applied to cover the loop backs and to lock in the loops.
• the latex may be an EVA latex or another vinyl polymer or acrylic-like polymer latex.
• the latex may be a copolymer of acrylic and methacrylic acid and alkyl acrylates and esters (such as ethyl acrylate or methyl acrylate), acrylic-styrene copolymers, acrylonitrile-styrene copolymers, vinylidene chloride-acrylonitrile copolymers, and combinations thereof.
• the latex is non-halogenated.
• Suitable latex materials which can be used include other vinyl, short-chain carboxylic acid copolymers, butadiene-acrylonitrile copolymer, styrene-butadiene, carboxylated styrene-butadiene or carboxylated styrene-butadiene-styrene.
• Urethane, PVC, acrylics or vinylidine chloride may also be used.
• the precoating composition/latex may further comprise a thickener, an antibacterial, a fire retardant and/or a surfactant.
• a suitable antibacterial is zinc omadine - zinc2-pyridinethiol-1 -oxide.
• a suitable fire retardant is aluminium hydroxide.
• a suitable surfactant is sodium lauryl sulphate.
• a precoating composition comprising: at least one copolymer derived from an acrylic or methacrylic monomer and a styrenic monomer; at least one copolymer derived from an acrylic ester and a methacrylic ester; at least one thickener; and water.
• the copolymer derived from an acrylic or methacrylic monomer and a styrenic monomer is suitably an acrylate/styrene copolymer dispersion such as that supplied by BASF Corporation as Acronal® S 728 na.
• the precoating composition may also contain a copolymer derived from an acrylic ester and a methacrylic ester. This copolymer facilitates the acrylic styrene sticking to thermoplastic materials such as PVC suitably used in the manufacture of the floor coverings.
• a suitable polymer is Acronal® AX 8281 AP available from BASF Aktiengesellschaft.
• the thickener is a thickener suitable for polymer dispersions, for example, an acrylic copolymer containing carboxyl groups.
• a suitable thickener is Latekoll® D available from BASF Aktiengesellschaft and is a low- viscosity, milky white anionic dispersion.
• the thickener helps to prevent the precoating composition from wicking down holes in the primary backing layer.
• the thickener is suitably pre-diluted with water to form a homogeneous solution prior to the addition to the resins.
• the latex/precoating composition can be applied to the primary backing by roller coating, spraying or by foaming.
• the latex/precoating composition serves to lock in the fibre on the back of the primary, such as a tufted back layer and acts as a barrier, separating the fibrous carpet from the underlying backing.
• the pre-coating is suitably heated to drive off sufficient water to provide a solid barrier and to allow for possible cross-linking.
• the precoating layer has a thickness which is typically quite thin.
• the thickness is about 0.005mm to 0.1mm when dry.
• the thickness is suitably controlled by the use of spray nozzles and spray pressure.
• the precoating layer is suitably placed directly on and against the back surface of the loop or fibre containing primary backing and is suitably applied in an amount to cover completely the loop backs and to lock in loops so that no mountains or valleys are evident.
• the copolymers are suitably cured and crosslinked.
• the resulting precoated product is very flexible.
• the floor covering may include a backing layer which imparts stability and free-laying properties to the floor covering.
• shear the carpet fibres Prior to applying the backing layer, it is possible to shear the carpet fibres if desired. Shearing is performed to cut the closed loop, tufted yam on the face surface and to provide for the cut, tufted yarn to have the same general height as the height of the face wear surface fibres.
• the backing layer may be formed from one or more layers of a thermoplastic polymer or other suitable backing material such as described above for the primary backing.
• the thermoplastic is a vinyl halide.
• a suitable vinyl halide is PVC (polyvinylchloride).
• Other suitable backings include bitumen, atactic polypropylene, polyolefin, ethylene vinyl acetate copolymer, thermoplastic elastomers, polyurethanes, PVC/Latex, bitumen backed latex and polyurethane, polyamines, jute, urethane, polyvinylidine chloride, polyvinyl acetate, polyvinyl butyral, natural or synthetic rubber or polychloroprene.
• the backing layer may be in the form of a foam, sponge or solid. When in the form of a foam, the backing layer adds resilience and or stability.
• the backing layer can have a range of properties depending on the nature of polymers, plasticizers, stabilizers and fillers used. Suitable fillers include recycled glass, limestone or a combination thereof.
• the plasticizer may be a standard phthalate plasticizer such as DINP, DEHP, DOP, PEG 100, or PEG 200.
• a particularly preferred plasticizer is the combination of epoxide soybean oil and a castor oil derivative.
• a viscosity modifier such as an alcohol may be present as required to lower viscosity.
• a suitable viscosity modifier is ethanol.
• a suitable soybean plasticizer is an epoxidised soya bean oil such as Lankroflex E2307 (ESBO) AG available from Swift and Company Limited, 372 Wellington Road, Mulgrave, Victoria 3170, Australia.
• the castor oil derivative is suitably an acetic acid ester of monoglycerides made from fully hydrogenated castor oil such as Grindsted® Soft-n-Safe/C available from Danisco Emulsifiers.
• a preferred backing layer is formed from a composition comprising recycled glass and the soybean oil/castor oil combination. This result is a more renewable and less fossil based product.
• the composition may include up to about 60% thermoplastic (fossil origin)
• the primary backing and backing layer or latex/precoating composition may include any one or, more of flame or fire retardants, inert fillers such as limestone or barytes, calcium oxide, carbon- black, antibacterials, surfactants, defoamers, thickeners, dispersing agents, elastomers, antioxidants, colourants, hardeners, plasticizers, UV/heat stabilizers, viscosity modifiers, cross- linking agents and/or tackifiers.
• inert fillers such as limestone or barytes, calcium oxide, carbon- black, antibacterials, surfactants, defoamers, thickeners, dispersing agents, elastomers, antioxidants, colourants, hardeners, plasticizers, UV/heat stabilizers, viscosity modifiers, cross- linking agents and/or tackifiers.
• thermoplastic resin provides the required flexibility, durability and hardness.
• a heat stabilizer stabilizes the thermoplastic and prevents thermal decomposition
• a UV stabilizer stabilizes the thermoplastic preventing decomposition as a result of exposure to UV light
• calcium oxide ensures any moisture is removed from the mixing process
• calcium carbonate (limestone) acts as filler, increasing the volume of the thermoplastic compound mix at reduced cost and a viscosity modifier maintains viscosity to ensure that the mix remains well mixed and in suspension (slowing the dropping out of solids).
• the floor covering may include one or more woven or non-woven layers of glass, fibreglass, polyester, Nylon® or polypropylene such as tissue, mesh, fleece or scrim sheet materials or a combination thereof in the primary backing and backing layer.
• the scrim material may be employed adjacent to the primary backing or closely adjacent thereto.
• Glass fibre or tissue materials may be employed within the thermoplastic backing layer to impart dimensional stability and improve laying properties of the carpet tile.
• Cushion layers for example, formed of foam may also be included.
• the floor covering may be prepared in any suitable manner.
• a layer of thermoplastic may be applied/cast in a defined thickness onto the underside of the primary backing layer as a wet plastisol.
• the coated material is suitably leveled with a doctor blade which levels and smooths the thermoplastic layer and forces the thermoplastic layer into engagement with any glass scrim and the primary backing.
• the backing layer may be preformed on a releasable support such as a fluorocarbon, glass fibre endless belt, Teflon® coated fibreglass belt or stainless steel support sheet through casting.
• a releasable support such as a fluorocarbon, glass fibre endless belt, Teflon® coated fibreglass belt or stainless steel support sheet through casting.
• the precoated primary backing layer is then laid into the liquid backing layer.
• the carpet is suitably heated to fuse/gel and cure the thermoplastic, cooled and optionally cut into carpet tile sections. Heating may be by use of a heater, radiant panels or heating elements. The heating cures the thermoplastic material and for a tufted carpet, thereby locks back stitches in place, the primary backing is thereby bonded to the backing layer by fibres of the primary backing being embedded in the backing layer.
• the carpet tile may be heated to a curing temperature within the range of 50°C to 170°C, for example 90°C to 160°C, 100°C to 150°C or 140°C to 150°C.
• the plasticizer melts and begins diffusing into particles at 50°C, gelation begins at about 50°C and continues to about 130°C, at which point the particles swell and between 130°C and 170°C the gelation stage ends. At 91 °C the polymer flows into a continuous mass.
• a suitable apparatus for finishing the carpet tile may be an apparatus including a heater having a chamber to operate at a desired temperature and through which the primary backing and backing layers pass to be heated to provide for plastic deformation of the backing layer; a pair of press rollers to which the primary backing, backing and any additional cushion layers are delivered, after the primary and backing layers have been heated by the heater, to apply a force thereto to cause the layers to bond, and a controller operatively associated with the heater, the controller being configured to maintain the temperature within the chamber to provide for heating of the backing layer so that the backing layer is relatively deformed by the rollers to bond the layers.
• the carpet may be passed under an embossing roller which embosses the back of the carpet with indentations, corrugations or the like to form a friction- increasing surface (resisting movement and maintaining position when placed in situ) and assists in consolidating the layers into a unitary product.
• the consolidated carpet material may then be severed by suitable cutting means into appropriate length sections (for example into squares).
• the laminated construction may be cooled for example to about 105°C to allow removal of the construction from the support.
• the construction may then be passed through a heater and raised to about 100°C prior to being engaged by an embossing roller that embosses the thermoplastic layer.
• the backing layer is formed of a layer of thermoplastic such as PVC, a fibreglass scrim and a second thermoplastic layer such as PVC.
• the first layer of thermoplastic bonds the primary backing to the fibreglass layer, the thickness of the layer suitably being controlled by a doctor blade.
• the fibreglass layer is to ensure dimensional stability of the carpet tile.
• the second layer of thermoplastic glues the layers above it and provides the final backing of the carpet tile. The thickness of this layer is also suitably controlled by a doctor blade.
• the backing layer may be applied to the primary backing in a continuous fashion to produce an indeterminate length of material which may be subsequently cut as desired to form the carpet tile.
• each layer may vary depending on whether a solid layer or foam layer is used.
• the first PVC layer range is dependant on the weight of the PVC backing i.e., 2.64kg/m 2 would be two layers of 0.88mm, 2kg/m 2 would be two layers at 0.67mm, while 1.5kg/m 2 would be two layers at 0.5mm.
• the overall carpet thickness may suitably be between about 4 and 12 mm, for example about 6mm without foam backing and about 10mm with foam backing.
• the resulting floor covering is suitable for use as a floor covering for home and/or commercial use. Installation of the carpet
• the underside of the carpet may be provided with an adhesive of the invention with a strippable protective layer attached thereto, where, in use the protective layer is stripped off and the floor covering applied to the floor surface and the adhesive allowed to cure.
• the adhesive of the invention is applied directly to the surface followed by positioning the carpet over the surface and allowing the adhesive to cure.
• the adhesive of the invention is suitably applied to the substrate suitably using a trowel.
• the adhesive has sufficient tack, peel strength and shear strength to maintain the tile against the floor during use but also allows carpet tiles to be replaced or rotated as desired. Volatile organic compound emissions may be reduced to 50 ⁇ 7 ⁇ 2 / ⁇ which may be further, reduced over time and balances at ambient VOC levels.
• the adhesive was prepared by adding the acrylic polymer to water in a suitable mixing vessel and stirring the mixture whilst adding the zinc omadine, biocide and defoamer in given water. 0.7wt% water and the sodium hydroxide were premixed and then added slowly to the mix followed by the alkali swellable thickener and the mixture stirred until smooth and uniform. The green pigment was added until fully dispersed, the resulting adhesive quality checked and passed through a 10 mesh filter.
• the resulting adhesive had a viscosity of 15000 to 17000 (using a Brookfield Viscosity RVT spindle 5 at 20 rpm at 25°C) and total solids content of 44 to 46%.
• the pH of the formulation was 7.0 to 9.0 with a density (specific gravity) of 0.95 to 1.05 g cm 3 .
• the adhesive was a pressure sensitive adhesive with low tack.
• the adhesive of the invention did not produce any emissions of 2-ethyl-1-hexanol whereas the conventional adhesives did produce 2-ethyl-1 -hexanol in significant amounts. It was noted that the adhesive of Example 1 did give off some propanol in the first 15 minutes but this would not affect application of the carpet tile which is usually applied 15 to 20 minutes after the adhesive.
• the adhesive prepared in Example 1 was applied as a thin film to a concrete surface having a pH of 12 using a V1 or V2 notch trowel. A carpet tile was positioned on the adhesive and allowed to cure. No pungent odour was detected and the adhesive has sufficient shear strength and tack to maintain the carpet against the surface but was peelable from the surface.
• Samples of various conventional pressure sensitive adhesives manufactured in Australia, Europe and the US were obtained. 200ml of each were decanted into separate sealed containers and 50 ml of CaOH solution (pH11) was added to each. After 2 hours all of the samples displayed evidence of depolymerisation and all samples produced undesirable VOC's. It was determined at this point that further qualitative testing was required. Samples of Intertac pressure sensitive adhesive was supplied to CETEC Laboratories, to repeat the test and measure VOC. Preliminary results showed emission rates while the adhesive was undergoing an alkaline hydrolysis reaction of 2800 ugm /m2/hr.

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• Chemical & Material Sciences (AREA)
• Organic Chemistry (AREA)
• Carpets (AREA)
• Floor Finish (AREA)
• Adhesives Or Adhesive Processes (AREA)

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• 2011
  • 2011-06-24 NZ NZ607423A patent/NZ607423A/en not_active IP Right Cessation
  • 2011-11-17 CN CN2011800448756A patent/CN103339212A/zh active Pending
  • 2011-11-17 EP EP11841099.2A patent/EP2640795A4/en not_active Withdrawn
  • 2011-11-17 JP JP2013539097A patent/JP2013542817A/ja active Pending
  • 2011-11-17 AU AU2011331916A patent/AU2011331916B2/en not_active Ceased
  • 2011-11-17 US US13/988,022 patent/US20140053967A1/en not_active Abandoned
  • 2011-11-17 WO PCT/AU2011/001492 patent/WO2012065227A1/en not_active Ceased

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