Semisolid casting/forging apparatus and method as well as a cast and forged product

What is claimed is: 1. A semisolid melt casting and forging method, comprising: teeming a metal melt into a cavity of a lower die, and moving at least one of the lower and an upper die relatively towards the other at a rate of movement to perform molding of the metal melt in a semisolid state; wherein said metal melt is formed into a slurry having grains of a grain size of not more than 50 μm throughout the slurry, and wherein said molding is initiated at a lapse of time ranging between 0.1 second and 10 seconds following an instant at which the metal melt is teemed. 2. A semisolid melt casting and forging method as set forth in claim 1 wherein said lapse of time between the instant at which the metal melt is teemed and the instant at which the molding is initiated is between 0.1 second and 5 seconds. 3. A semisolid melt casting and forging method, comprising the steps of: teeming a metal melt so that it is supercooled to be teemed into a lower die in a press so controlled that the metal melt has a rate of solidification as desired, so as to make a semisolid slurry having crystal grains of a grain size of not more than 50 μm throughout; bringing at least an upper die into contact with the semisolid slurry; and thereafter moving at least one of the upper and lower dies relatively towards the other at a rate of movement between 0.1 and 1.5 meter per second at least after an instant at which the upper die comes in contact with said semisolid slurry, thereby compressing said semisolid slurry to mold it into a product. 4. A semisolid melt casting and forging method as set forth in claim 1 , wherein the metal melt as it is teemed is of a temperature higher by 10 to 30° C. than its liquid phase or liquidus temperature. 5. A semisolid melt casting and forging method as set forth in claim 1 , wherein the metal melt is cooled passing through a liquidus curve at a rate of cooling of not less than 2° C. per second. 6. A semisolid melt casting and forging method as set forth in claim 1 , wherein said lower die is of a temperature of 200° C.±100° C. 7. A semisolid melt casting and forging method as set forth in claim 1 , wherein said upper die is of a temperature different from that of said lower die. 8. A semisolid melt casting and forging method as set forth in claim 7 , wherein the temperature of at least a portion of said upper die is lower than the temperature of said lower die. 9. A semisolid melt casting and forging method as set forth in claim 1 , wherein the ratio in mass of a product to a raw material is not less than 0.9.