Manufacturing method of a cutting member

The invention claimed is: 1. A method of manufacturing a cutting member, the manufacturing method comprising: step 1: cutting a first metal material to form a first portion of the cutting member, wherein the first portion is for supporting the cutting member and is a triangular shape, the first metal material being martensitic stainless steel having a carbon content of 0.1˜0.7%; step 2: cutting a second metal material to form a second portion of the cutting member, wherein a first edge of the second portion, which is along a length direction of the cutting member, consists of at least two line segments, and one of the at least two line segments is continuous, and a curve formed by all the line segments being mathematically continuously differentiable, the second metal material is high-speed tool steel having a carbon content of not less than 0.7% or alloy tool steel having a carbon content of not less than 0.8%; step 3: welding the first portion and the second portion with one of laser, electron beam or ion beam and producing a cutting member blank; and step 4: performing heat treatment on the cutting member blank, the heat treatment comprising (a) raising and holding the temperature of the cutting member blank in stages, (b) quenching the cutting member blank after raising and holding the temperature of the cutting member blank in stages, and (c) tempering the cutting member plural times after quenching the cutting member blank, wherein the raising and holding the temperature of the cutting member blank in stages comprises: raising the cutting member blank to a first temperature at a first rate and holding the cutting member blank at the first temperature for a first predetermined time period, the first rate being 9.5±1° C./min, the first temperature being 620˜680° C., and the first predetermined time period being 60˜90 min; raising the cutting member blank from the first temperature to a second temperature at a second rate lower than the first rate and holding the cutting member blank at the second temperature for a second predetermined time period, the second rate being 7±0.5° C./min, the second temperature being 800˜850° C., and the second predetermined time period being 60˜90 min; and raising the cutting member blank from the second temperature to a third temperature at a third rate not higher than the second rate and holding the cutting member blank at the third temperature for a third predetermined time period, the third rate being 6±0.5° C./min, the third temperature being 1100˜1250° C., and the third predetermined time period being 60˜120 min. 2. The method of manufacturing a cutting member according to claim 1 , wherein the raising and holding the temperature of the cutting member blank in stages is performed under vacuum pressure of not more than 200 Pa before the quenching of the cutting member blank. 3. The method of manufacturing a cutting member according to claim 1 , wherein the quenching is vacuum gas quenching in a heating chamber, the pressure of the inert gas in the heating chamber is at least 0.5 bar, and the temperature in the heating chamber is reduced to below 100° C. 4. The method of manufacturing a cutting member according to claim 1 , wherein the quenching is vacuum oil quenching, and the temperature of the vacuum quenching oil used is in the range of 50˜80° C. 5. The method of manufacturing a cutting member according to claim 1 , wherein: the second metal material is a high-speed tool steel having a carbon content of not less than 0.7%, and tempering comprises, after the quenching, raising the cutting member blank to a fourth temperature and holding the cutting member blank at the fourth temperature for a fourth predetermined time period. 6. The method of manufacturing a cutting member according to claim 5 , wherein: the fourth temperature is 500˜560° C., the fourth predetermined time period is 2 hours, the raising of the cutting member blank to the fourth temperature and holding the cutting member blank at the fourth temperature for the fourth predetermined time period is performed three times, and the cutting member blank is air-cooled to a room temperature before the raising of the cutting member blank to the fourth temperature. 7. The method of manufacturing a cutting member according to claim 1 , wherein: the second metal material is an alloy tool steel having a carbon content of not less than 0.8%, and the step of tempering comprises, after the quenching, raising the cutting member blank to a fifth temperature and holding the cutting member blank at the fifth temperature for a fifth predetermined time period. 8. The method of manufacturing a cutting member according to claim 7 , wherein: the fifth temperature is 180˜260° C., the fifth predetermined time period is 2 hours, the raising of the cutting member blank to the fifth temperature and holding the cutting member blank at the fifth temperature for the fifth predetermined time period is performed twice, and the cutting member blank is air-cooled to a room temperature before every raising of the cutting member blank to the fifth temperature.