Method for preparing high-entropy alloy composites reinforced by diamond particles

What is claimed is: 1. A method for preparing a high-entropy alloy composites reinforced by diamond particles, comprising: step 1, cleaning the diamond particles by boiling with diluted alkali solution and acid solution to remove oil, then washing with deionized water for 3-5 times to clean surfaces of the diamond particles to neutral, taking out and drying; step 2, placing the diamond particles on a sample stage using a vacuum coating preparation equipment equipped with an in-situ heating sample stage, and performing high-entropy alloy metallizing coating on the surfaces of the diamond particles to obtain modified diamond particles, wherein the high-entropy alloy metallizing comprises elements of any four, five, or six of metal elements Ti, Zr, Hf, Nb, Ta, W, and Mo in an equal atomic ratio; and step 3, adding the modified diamond particles obtained in the step 2 as a reinforcing phase into a high-entropy alloy matrix with same element types as the high-entropy alloy metallizing coating, then melting in a vacuum non-self-consuming arc melting furnace, evacuating the furnace to below 1.5×10 −3 pascal (Pa) and charging with argon to 0.5 atmosphere (atm), and dispersing the diamond particles uniformly and melting 6-8 times by electromagnetic stirring, then pouring and cooling to prepare the high-entropy alloy composites reinforced by diamond particles. 2. The method for preparing a high-entropy alloy composites reinforced by diamond particles according to claim 1 , wherein the alkali solution is 5 weight percentage (wt. %) NaOH, and the acid solution is 30 wt. % HNO 3 solution. 3. The method for preparing a high-entropy alloy composites reinforced by diamond particles according to claim 1 , wherein the diamond particles placed on the sample stage are heated to 400-900 degree Celsius (° C.) as applying the high-entropy alloy metallizing coating to the surfaces of the diamond particles. 4. The method for preparing a high-entropy alloy composites reinforced by diamond particles according to claim 1 , wherein the diamond particles placed on the sample stage are mechanically or electromagnetically vibrated for 30 seconds (s) to 1 minute (min) every 10 min-30 min.