Method for manufacturing metal parts and molds and micro-roller used therefor

The invention claimed is: 1. A method for manufacturing a part comprising a plurality of layers, the method comprising: a) slicing a three-dimensional CAD model of the part into a plurality of slices to attain geometric data of said slices; b) generating modeling paths for said slices according to said geometric data, and generating numerical control codes for said modeling paths; c) depositing material via fused deposition modeling on a substrate layer, by driving a welding gun emitting a numerical control gas shielded welding beam or laser beam along one of said modeling paths specified by one of said numerical control codes, to attain fused deposited material having two side surfaces, a bottom surface, and a top surface, wherein said bottom surface contacts with said substrate layer, said top surface is opposite to said bottom surface, said two side surfaces extend between said bottom surface and said top surface, and said two side surfaces are opposite to each other; and d) applying extrusion forces on said fused deposited material by using a micro-roller or a micro-extrusion unit to cause a plastic deformation in said fused deposited material; wherein: said micro-roller or said micro-extrusion unit synchronously moves along with said welding gun, whereby the step of depositing material and the step of applying extrusion forces on said fused deposited material are substantially synchronously conducted; performing the substantially synchronous steps of depositing material and applying extrusion forces on said fused deposited material, until requirements for dimensions and surface quality of the part are met, whereby forming one of the plurality of layers; and the step of applying extrusion forces on said fused deposited material comprises applying extrusion forces on said two side surfaces and said top surface. 2. The method of claim 1 , wherein, if a body formed by the plurality of layers does not meet the requirements for dimensions and surface quality of the part, grinding and polishing the plurality of layers in a layer-by-layer way or in a manner of segmentation, until the requirements for dimensions and surface quality of the part are met. 3. The method of claim 2 , wherein: said welding gun is a plasma gun, a gas shielded gun, or a laser welding head; said material is metal, intermetallic compound, ceramic, or composite functional gradient material; said metal is pure metal or alloy material that can be used in gas shielded welding or laser welding; said intermetallic compound is an intermetallic compound material that can be used for surface cladding; said ceramic is a ceramic material that can be used for surface cladding; and said composite functional gradient material is a composite of said metal, said intermetallic compound, and said ceramic, or a composite having gradient-varied compositions. 4. The method of claim 1 , wherein: said welding gun is a plasma gun, a gas shielded gun, or a laser welding head; said material is metal, intermetallic compound, ceramic, or composite functional gradient material; said metal is pure metal or alloy material that can be used in gas shielded welding or laser welding; said intermetallic compound is an intermetallic compound material that can be used for surface cladding; said ceramic is a ceramic material that can be used for surface cladding; and said composite functional gradient material is a composite of said metal, said intermetallic compound, and said ceramic, or a composite having gradient-varied compositions. 5. The method of claim 1 , wherein: said micro-roller or said micro-extrusion unit is fixed on a head of said welding gun; said micro-roller comprises two first rollers adapted for respectively applying extrusion forces on said two side surfaces, and a second roller adapted for applying extrusion force on said top surface; and said micro-extrusion unit comprises two first clamping plates adapted for respectively applying extrusion forces on said two side surfaces, and a second clamping plate adapted for applying extrusion force on said top surface. 6. The method of claim 1 , wherein: said micro-roller or said micro-extrusion unit is fixed on a numerical control processing head or on a robot wrist; said numerical control processing head or said robot wrist is synchronous with said welding gun; said micro-roller comprises two first rollers adapted for respectively applying extrusion forces on said two side surfaces, and a second roller adapted for applying extrusion force on said top surface; and said micro-extrusion unit comprises two first clamping plates adapted for respectively applying extrusion forces on said two side surfaces, and a second clamping plate adapted for applying extrusion force on said top surface.