Method for eliminating hollow defect in atomized alloy powder

What is claimed is: 1. A method for eliminating hollow defect in atomized alloy powder, wherein the method comprises mechanical ball milling on the atomized alloy powder to eliminate the powder hollow defect, wherein four kinds of mill balls characterized by having different diameters are used in the mechanical ball milling process, the four diameters of the mill balls are in ranges of 9-11 mm, 7-9 mm, 5-7 mm, and 4-6 mm respectively, and all of the mill balls are combined according to mass ratio of 1:2.5-3.5:0.5-1.5:4-6 in descending order of the diameters. 2. The method for eliminating the hollow defect in atomized alloy powder according to claim 1 , wherein the ball milling is under the protection of an inert gas. 3. The method for eliminating the hollow defect in atomized alloy powder according to claim 2 , wherein the mechanical ball milling is carried out in any one of a planetary ball mill, stirring ball mill, or drum-type ball mill. 4. The method for eliminating the hollow defect in atomized alloy powder according to claim 3 , wherein the atomized alloy powder is loaded into a ball milling tank with a mass ratio of the balls to powder as (8˜12):1, and the ball milling is performed in the planetary ball mill with a ball mill rotating speed of 250˜350 r/min and ball milling time of 1˜4 h under the protection of an inert gas. 5. The method for eliminating the hollow defect in atomized alloy powder according to claim 3 , wherein the atomized alloy powder is loaded into a ball milling tank with a mass ratio of the balls to powder mass ratio is (8˜15):1, and the ball milling is performed in the stirring ball mill with a ball mill rotating speed of 60˜150 r/min and ball milling time of 2˜6 h under the protection of an inert gas. 6. The method for eliminating the hollow defect in atomized alloy powder according to claim 1 , wherein the four diameters of the mill balls are 10 mm, 8 mm, 6 mm, and 5 mm respectively, which are combined according to mass ratio of 1:3:1:5 in descending order of the diameters. 7. The method for eliminating the hollow defect in atomized alloy powder according to claim 6 , wherein the atomized alloy powder is loaded into a ball milling tank with the balls to powder mass ratio is (8˜12):1, the ball milling is performed in the planetary ball mill with a ball mill rotating speed of 250˜350 r/min, and ball milling time of 1˜4 h under the protection of an inert gas. 8. The method for eliminating the hollow defect in atomized alloy powder according to claim 6 , wherein the atomized alloy powder is loaded into a ball milling tank with the balls to powder mass ratio of (8˜15):1, the ball milling is performed in the stirring ball mill with a ball mill rotating speed of 60˜150 r/min, and ball milling time of 2˜6 h under the protection of an inert gas. 9. The method for eliminating the hollow defect in atomized alloy powder according to claim 1 , wherein the atomized alloy powder is loaded into a ball milling tank with the balls to powder mass ratio of (8˜12):1, the ball milling is performed in the planetary ball mill with a ball mill rotating speed of 250˜350 r/min and ball milling time of 1˜4 h under the protection of an inert gas. 10. The method for eliminating the hollow defect in atomized alloy powder according to claim 1 , wherein the atomized alloy powder is loaded into a ball milling tank with the balls to powder mass ratio of (8˜15):1, the ball milling is performed in the stirring ball mill with a ball mill rotating speed of 60˜150 r/min, and ball milling time of 2˜6 h under the protection of an inert gas.