Sliding member

The invention claimed is: 1. A sliding member comprising: a base material; and a coating on the base material; wherein: the coating contains hard metal particles, and corrosion-resistant metal particles that have hardness lower than hardness of the hard metal particles, the hard metal particles have a Vickers hardness of 600 Hv or higher, and the corrosion-resistant metal particles have a Vickers hardness lower than 600 Hv, wherein the Vickers hardness is measured and calculated in accordance with Vickers hardness test JIS Z 2244, the corrosion-resistant metal particles are made of at least one kind of metal selected from a the group consisting of copper (Cu), cobalt (Co), chromium (Cr), and nickel (Ni), or are made of an alloy containing said at least one kind of metal, the corrosion-resistant metal particles form a particle aggregate in which interfaces are formed between the corrosion-resistant metal particles without forming a uniform structure, wherein surfaces of the corrosion-resistant metal particles are locally melted and solidified, and are bonded to each other, wherein the particle aggregate is not an aggregate in which the corrosion-resistant metal particles are completely melted or dissolved and solidified to form a uniform structure, the coating has a cross section in which the hard metal particles are dispersed so as to be spaced from each other in the particle aggregate of the corrosion-resistant metal particles, and in which an area ratio of the corrosion-resistant metal particles is 30% or larger, the coating comprises a sintered body that is press-fit in the base material, and the sintered body is a body that has been formed by sintering a compression-molded or metal powder-injected green body of mixed metal particles of the corrosion-resistant metal particles and the hard metal particles, and baking the green body at a temperature lower than a melting temperature of the mixed metal particles. 2. The sliding member according to claim 1 , wherein the hard metal particles are made of at least one kind of metal selected from a group consisting of cobalt (Co), chromium (Cr), and nickel (Ni), or are made of an alloy containing said at least one kind of metal, and the Vickers hardness of the hard metal particles is 700 Hv or higher. 3. The sliding member according to claim 1 , wherein the area ratio of the corrosion-resistant metal particles is 50% or larger. 4. The sliding member according to claim 3 , wherein the area ratio of the corrosion-resistant metal particles is 80% or larger. 5. The sliding member according to claim 1 , wherein an area ratio of the hard metal particles is 5% or larger and 50% or smaller. 6. The sliding member according to claim 1 , wherein a void content is 10 area % or smaller. 7. The sliding member according to claim 1 , wherein a void content is 5 area % or smaller. 8. The sliding member according to claim 1 , wherein the coating includes an independent void by which condensed water is prevented from entering the independent void and an oxygen concentration cell is prevented from forming in the coating, whereby occurrence of crevice corrosion in the coating is suppressed. 9. The sliding member according to claim 1 , wherein the coating has a natural potential of −600 mV or higher. 10. The sliding member according to claim 9 , wherein the coating has a natural potential of 0 mV or higher. 11. The sliding member according to claim 1 , wherein a relative difference in natural potential between the coating and the base material is 1100 mV or smaller. 12. The sliding member according to claim 1 , wherein the base material is made of an aluminum alloy.