Alloy material with high strength and toughness and its fabrication method of semi-solid sintering

The invention claimed is: 1. A method for preparing a high strength and toughness alloy material by semi-solid sintering, comprising the steps and process conditions as follows: step 1: placing elementary substance powders proportionally into a powder mixing machine, and mixed so as to obtain homogeneously mixed powders; step 2: placing the homogeneously mixed powders into a ball mill to carry out high-energy ball milling, until forming alloy powders having nanocrystalline or amorphous structure; step 3: sintering the alloy powders loaded in a sintering mould consolidated by a powder metallurgy technology, selecting the sintering temperature Ts, and carrying out the sintering in a two-step process, wherein the temperature is heated to less than the initial melting temperature of the lowest-temperature melting peak of the alloy powder under sintering pressure conditions, and sintering densification of the alloy powders; following pressure release, the temperature is heated to the sintering temperature Ts, maintaining the same temperature, and a semi-solid processing is carried out, with process conditions as follows: the sintering temperature Ts:  Ts≥the initial melting temperature of the lowest-temperature melting peak of the alloy powder,  Ts≤the initial melting temperature of the highest-temperature melting peak of the alloy powder; the sintering pressure of 20-500 MPa; and step 4: cooling to obtain a high strength and toughness alloy material. 2. The method for preparing a high strength and toughness alloy material by semi-solid sintering according to claim 1 , when the sintering mould used is a graphite mould, the sintering pressure in step 3 is 30-50 MPa; and when the sintering mould used is a tungsten carbide mould, the sintering pressure in step 3 is 50-500 MPa. 3. The method for preparing a high strength and toughness alloy material by semi-solid sintering according to claim 1 , wherein the powder metallurgy technology in step 3 is any one of powder extrusion, powder hot pressing, powder rolling, powder forging and spark plasma sintering. 4. The method for preparing a high strength and toughness alloy material by semi-solid sintering according to claim 1 , wherein the elementary substance powders in step 1 are the powders prepared by atomization process, electrolysis process or hydrogenation-dehydrogenation process. 5. The method for preparing a high strength and toughness alloy material by semi-solid sintering according to claim 1 , wherein the high strength and toughness alloy material prepared in step 3 is carried out a post-heat treatment. 6. The method for preparing a high strength and toughness alloy material by semi-solid sintering according to claim 1 , wherein the high strength and toughness alloy material prepared in step 3 is carried out an annealing treatment. 7. The high strength and toughness alloy material, produced by the method according to any one of claims 1 - 6 . 8. The high strength and toughness alloy material according to claim 7 , wherein the high strength and toughness alloy material is Ti-based, Ni-based, Zr-based, Cu-based, Co-based, Nb-based, Fe-based, Mn-based, Mo-based or Ta-based alloy system. 9. The high strength and toughness alloy material according to claim 7 , wherein the structure of the high strength and toughness alloy material comprises nanocrystalline, ultra-fine crystalline, fine crystalline or dual-scale structure.