Bicycle rim

What is claimed is: 1. A bicycle rim comprising: a first annular side wall including a first braking contact portion; a second annular side wall including a second braking contact portion; and an annular bridge extending between the first and second annular side walls; at least one of the first and second braking contact portions having a plurality of soft additives at least partially embedded in a non-metallic layer, the soft additives being made of a material that is softer than the non-metallic layer, the soft additives having the form of discrete granules having a particle size in a prescribed range. 2. The bicycle rim according to the claim 1 , wherein the soft additives are at least partially exposed on an outermost surface of the at least one of the first and second braking contact portions. 3. The bicycle rim according to claim 1 , wherein both of the first and second braking contact portions have the soft additives. 4. The bicycle rim according to claim 2 , wherein each of the soft additives has an exposed surface, each of the exposed surfaces is less than 50% of total surface area of each of the soft additives. 5. A bicycle rim comprising: a first annular side wall including a first braking contact portion; a second annular side wall including a second braking contact portion; and an annular bridge extending between the first and second annular side walls; at least one of the first and second braking contact portions having a plurality of soft additives at least partially embedded in a non-metallic layer, the soft additives being at least partially exposed on an outermost surface of the at least one of the first and second braking contact portions such that each of the soft additives has an exposed surface, each of the exposed surfaces being less than 20% of total surface area of each of the soft additives. 6. The bicycle rim according to claim 1 , wherein each of the soft additives includes an elastomeric material. 7. The bicycle rim according to claim 6 , wherein the elastomeric material is a nitrile rubber. 8. The bicycle rim according to claim 6 , wherein the elastomeric material is a fluorinated elastomer. 9. A bicycle rim comprising: a first annular side wall including a first braking contact portion; a second annular side wall including a second braking contact portion; and an annular bridge extending between the first and second annular side walls; at least one of the first and second braking contact portions having a plurality of soft additives at least partially embedded in a non-metallic layer, the non-metallic layer of the at least one of the first and second braking contact portions including an epoxy layer defining the outermost surface of the at least one of the first and second braking contact portions. 10. The bicycle rim according to claim 9 , wherein the soft additives are partially disposed in the epoxy layer. 11. The bicycle rim according to claim 9 , wherein the non-metallic layer further includes a fiberglass layer, and the epoxy layer is disposed directly on the fiberglass layer. 12. The bicycle rim according to claim 11 , wherein the soft additives are partially disposed in the epoxy layer. 13. The bicycle rim according to claim 12 , wherein the soft additives are further partially disposed in the fiberglass layer. 14. The bicycle rim according to claim 1 , wherein the annular bridge has a curved tubular tire engagement surface extending between the first and second annular side walls. 15. The bicycle rim according to claim 1 , wherein each of the first and second annular side walls has a clincher portion along an outer peripheral edge. 16. The bicycle rim according to claim 1 , wherein the discrete granules of the soft additives have a grain size in the range 850 to 1000 micrometers.