Grinding mills

The invention claimed is: 1. A method of grinding a particulate mineral ore material, the method comprising: stirring a mixture of said particulate mineral ore material and a grinding media by a stirring device having a body, said particulate mineral ore material having a density of at least 2,000 kg/m3, and deflecting the mixture of said particulate mineral ore material and said grinding media from the body of said stirring device by a plurality of protective elements extending outwardly from said body and being spaced apart around said body, wherein the body comprises a rotating annular grinding disc, and wherein the plurality of protective elements are elongated in a plane orthogonal to an axis of rotation of the rotating annular grinding disc and arranged at an angle to a direction of rotation of the rotating annular grinding disc to deflect the mixture of the particulate mineral ore material particles and grinding media and to promote contact between the particulate mineral ore material particles and grinding media, wherein the plurality of protective elements extend outwardly from the annular grinding disc in an axial direction of the annular grinding disc and radially outward of an outer circumferential edge of the annular grinding disc. 2. A stirring device for stirring a mixture of a particulate material and a grinding media in a grinding mill, the stirring device comprising: a rotating annular grinding disc body, a plurality of protective elements that extend outwardly from said disc body and are spaced apart around said disc body to deflect the mixture of said particulate material and said grinding media from said disc body, wherein said particulate material are mineral ore particles having a density of at least 2,000 kg/m 3 , and wherein the plurality of protective elements are elongated in a plane orthogonal to an axis of rotation of the disc body and arranged at an angle to a direction of rotation of said disc body to deflect the mixture of the particulate mineral ore material particles and grinding media to minimize contact of the mixture of particulate mineral ore material particles and grinding media against the disc body and to promote contact between the particulate mineral ore material particles and grinding media, wherein the plurality of protective elements extend outwardly from the disc body in an axial direction of the disc body and radially outward of an outer circumferential edge of the disc body. 3. The stirring device of claim 2 , wherein said plurality of protective elements extend at an angle to a surface of said disc body. 4. The stirring device of claim 2 , wherein said disc body comprises opposed surfaces and said plurality of protective elements extend from at least one of said opposed surfaces, wherein the plurality of protective elements includes a first protective element and an adjacent, second protective element, the first and second protective elements defining a circumferential gap therebetween, and wherein at least one of the opposed surfaces spans the gap and interconnects the first and second protective elements. 5. The stirring device of claim 2 , wherein said plurality of protective elements each comprise at least one of a projection, an elongated body, a block-shaped element, a flange, a tooth, a planar element, a vane, a blade, a fin, a plate, a bar, a post, a rod, a channel-shaped element, a V-shaped element, a U-shaped element, a depression, a recess, a ramp-like element and a wedge-shaped element. 6. The stirring device of claim 5 , wherein said plurality of protective elements comprise said block-shaped element, wherein said block-shaped element is operatively coupled to said disc body so that opposed sides of said block-shaped element extend outwardly from said opposed surfaces of said disc body and/or wherein said block-shaped element comprises an outer end that extends radially outwardly from the outer circumferential edge of said disc body. 7. Use of the stirring device of claim 2 in a stirring device assembly. 8. A stirring device assembly for a grinding mill body, comprising a plurality of stirring devices of claim 2 mounted to a drive shaft for rotating said stirring devices. 9. Use of the stirring device assembly of claim 8 as a mill impeller in a grinding mill. 10. A mill body comprising a stirring device assembly, the stirring device assembly comprising a plurality of the stirring device of claim 2 mounted to a drive shaft for rotating said plurality of stirring devices. 11. A grinding mill comprising said mill body of claim 10 . 12. The grinding mill of claim 11 , wherein said grinding mill is a fine grinding mill having a power consumption of 10 to 70 kWhr/t. 13. The stirring device of claim 2 , wherein the plurality of protective elements includes a first protective element and an adjacent, second protective element, the first and second protective elements defining a circumferential gap therebetween, the outer circumferential edge spanning the gap and interconnecting the first and second protective elements. 14. A method of grinding a particulate material in a grinding mill of the type having a mill body and a drive shaft for rotating a plurality of annular grinding discs within said mill body, said method comprising: introducing grinding media into said mill body; introducing said particulate material through an inlet, wherein said particulate material are mineral ore particles having a density of at least 2,000 kg/m 3 ; and operating said drive shaft to rotate said annular grinding discs within said mill body, said annular grinding discs being mounted coaxially along said drive shaft; wherein said rotation of said annular grinding discs induces a rotating flow of a mixture of said particulate material and said grinding media within said mill body to grind said particulate material against said grinding media to produce smaller sized mineral particles, wherein a plurality of protective elements deflect said particulate material and said grinding media away from bodies of said annular grinding discs, wherein said plurality of protective elements are spaced apart around said body of said annular grinding disc, and wherein the plurality of protective elements are elongated in a plane orthogonal to an axis of rotation of the annular grinding disc and arranged at an angle to a direction of rotation of said annular grinding disc to deflect the mixture of the particulate mineral ore material particles and grinding media to minimise contact of the mixture of particulate mineral ore material particles and grinding media against the body of the annular grinding disc, wherein the plurality of protective elements extend outwardly from the body of the annular grinding disc in an axial direction of the body of the annular grinding disc and radially outward of an outer circumferential edge of the body of the annular grinding disc. 15. A grinding element for a grinding mill, comprising: an annular grinding disc mountable coaxially on a rotating drive shaft within a grinding mill, said annular grinding disc having opposed radial surfaces and an outermost circumferential edge, wherein the outermost circumferential edge interconnects the opposed radial surfaces, a plurality of protective elements provided along the opposed radial surfaces and along the outermost circumferential edge, wherein the protective elements protrude from said opposed radial surfaces and from said outermost circumferential edge and are spaced apart from each other in a circumferential direction along said opposed radial surfaces and along said outermost circumferential edge, and wherein the