Bearing

The invention claimed is: 1. A rolling element bearing comprising: an inner ring; an outer ring; a plurality of rolling elements disposed between an outer surface of the inner ring and an inner surface of the outer ring; a bearing shield assembly comprising a first member having an annular surface that faces the plurality of rolling elements, the first member either extending from the inner ring towards the outer ring to define a gap between the first member and the outer ring, or extending from the outer ring towards the inner ring to define a gap between the first member and the inner ring; and a first coating containing at least one of a fluorocarbon and a silicone, the first coating covering at least a portion of the first member adjacent the gap and forming a first low surface energy surface adjacent the gap; wherein the bearing has a configuration of one of: (1) in a configuration where the first member extends from the inner ring, the outer ring has a second coating that contains at least one of a fluorocarbon and a silicone and forms a second low surface energy surface adjacent the gap, or (2) in a configuration where the first member extends from the outer ring, the inner ring has a second coating that contains at least one of a fluorocarbon and a silicone and forms a second low surface energy surface adjacent the gap; the first and second low surface energy surfaces each have a surface energy of ≦0.028 N/m; the first coating has a thickness of 0.2 to 10.5 μm; the second coating has a thickness of 0.2 to 0.5 μm; and wherein the bearing is loaded with MT33 grease to lubricate motion of the rolling elements relative to the outer surface of the inner ring and the inner surface of the outer ring, and the first coating and the second coating are each comprised of EGC 2702 having a thickness of 0.2-0.5 μm. 2. The bearing of claim 1 , wherein the bearing shield assembly further comprises a second member having an annular surface that faces the plurality of rolling elements and that extends from the inner ring towards the outer ring to define a gap between the second member and the outer ring, or from the outer ring towards the inner ring to define a gap between the second member and the inner ring, the first and second members located either side of the rolling elements, and wherein: the second member has the first coating containing at least one of a fluorocarbon and a silicone and forming a third low surface energy surface adjacent the gap; the bearing has a configuration of one of: (1) in a configuration where the second member extends from the inner ring, the outer ring has the second coating that contains at least one of a fluorocarbon and a silicone and forms a fourth low surface energy surface adjacent the gap between the second member and the outer ring, or (2) in a configuration where the second member extends from the outer ring, the inner ring has the second coating that contains at least one of a fluorocarbon and a silicone and forms a fourth low surface energy surface adjacent the gap between the second member and the inner ring; and the third and fourth low surface energy surfaces each have a surface energy of ≦0.028 N/m. 3. The bearing of claim 2 , wherein at least one of the first member and the second member extends from the outer ring towards the inner ring. 4. The bearing of claim 2 , wherein at least a portion of the annular surface of at least one of the first member and the second member has the first or the third low surface energy surface having a surface energy of ≦0.028 N/m. 5. The bearing of claim 1 , wherein the bearing is a deep groove ball bearing. 6. A rolling element bearing comprising: an inner ring; an outer ring; a plurality of rolling elements disposed between an outer surface of the inner ring and an inner surface of the outer ring; a bearing shield assembly comprising a first member having an annular surface that faces the plurality of rolling elements, the first member either extending from the inner ring towards the outer ring to define a gap between the first member and the outer ring, or extending from the outer ring towards the inner ring to define a gap between the first member and the inner ring; and a first coating containing at least one of a fluorocarbon and a silicone, the first coating covering at least a portion of the first member adjacent the gap and forming a first low surface energy surface adjacent the gap; wherein the bearing has a configuration of one of: (1) in a configuration where the first member extends from the inner ring, the outer ring has a second coating that contains at least one of a fluorocarbon and a silicone and forms a second low surface energy surface adjacent the gap, or (2) in a configuration where the first member extends from the outer ring, the inner ring has a second coating that contains at least one of a fluorocarbon and a silicone and forms a second low surface energy surface adjacent the gap; the first and second low surface energy surfaces each have a surface energy of ≦0.028 N/m; the first coating has a thickness of 0.2 to 10.5 μm; the second coating has a thickness of 0.2 to 0.5 μm; and wherein the bearing is loaded with Nerita HV grease to lubricate motion of the rolling elements relative to the outer surface of the inner ring and the inner surface of the outer ring, the first coating is comprised of PFAD 335D having a thickness of 5-10 μm, and the second coating is comprised of EGC 2702 having a thickness of 0.2-0.5 μm. 7. A rolling element bearing comprising: an inner ring; an outer ring; a plurality of rolling elements disposed between an outer surface of the inner ring and an inner surface of the outer ring; a bearing shield assembly comprising a first member having an annular surface that faces the plurality of rolling elements, the first member either extending from the inner ring towards the outer ring to define a gap between the first member and the outer ring, or extending from the outer ring towards the inner ring to define a gap between the first member and the inner ring; and a first coating containing at least one of a fluorocarbon and a silicone, the first coating covering at least a portion of the first member adjacent the gap and forming a first low surface energy surface adjacent the gap; wherein the bearing has a configuration of one of: (1) in a configuration where the first member extends from the inner ring, the outer ring has a second coating that contains at least one of a fluorocarbon and a silicone and forms a second low surface energy surface adjacent the gap, or (2) in a configuration where the first member extends from the outer ring, the inner ring has a second coating that contains at least one of a fluorocarbon and a silicone and forms a second low surface energy surface adjacent the gap; the first and second low surface energy surfaces each have a surface energy of ≦0.028 N/m; the first coating has a thickness of 0.2 to 10.5 μm; the second coating has a thickness of 0.2 to 0.5 μm; and wherein the bearing is loaded with TT 100 base oil to lubricate motion of the rolling elements relative to the outer surface of the inner ring and the inner surface of the outer ring, the first coating is comprised of PFAD 335D having a thickness of 5-10 μm, and the second coating is comprised of EGC 2702 having a thickness of 0.2-0.5 μm.