Compact, method for producing compact

The invention claimed is: 1. A method for producing a compact by using coated soft magnetic powder that includes a plurality of coated soft magnetic particles constituted by soft magnetic particles and insulating coatings coating outer peripheries of the soft magnetic particles, the method comprising: a raw material preparation step of preparing a raw compact by press-forming the coated soft magnetic powder in a die; a raw compact withdrawal step of withdrawing the raw compact from the die after it that has been press-formed; and an irradiation step of irradiating at least part of a surface of the raw compact with a laser, wherein the laser is one type of laser selected from a YAG laser, a YVO 4 laser, and a fiber laser, wherein the raw compact withdrawal step causes a surface of the raw compact to come into sliding contact with the die during withdrawal of the raw compact from the die forming a conductive portion, wherein the irradiation step is performed on at least part of a surface of the raw compact to remove at least part of the conductive portion, the surface being a surface that has come into sliding contact with the die, and wherein the irradiation step is performed on a surface of the raw compact, the surface being a surface that serves as at least part of a parallel surface parallel to a direction of a magnetic flux generated by excitation using the compact as a magnetic core. 2. The method for producing a compact according to claim 1 , wherein the irradiation step is performed on a surface of the raw compact, the surface being the parallel surface, and in a region that extends across the entire length of the compact in the direction of the magnetic flux. 3. A method for producing a compact by using coated soft magnetic powder that includes a plurality of coated soft magnetic particles constituted by soft magnetic particles and insulating coatings coating outer peripheries of the soft magnetic particles, the method comprising: a raw material preparation step of preparing a raw compact by press-forming the coated soft magnetic powder in a die; a raw compact withdrawal step of withdrawing the raw compact from the die after it that has been press-formed; and an irradiation step of irradiating at least part of a surface of the raw compact with a laser, wherein the laser is one type of laser selected from a YAG laser, a YVO 4 laser, and a fiber laser, wherein the raw compact withdrawal step causes a surface of the raw compact to come into sliding contact with the die during withdrawal of the raw compact from the die forming a conductive portion, wherein the irradiation step is performed on at least part of a surface of the raw compact to remove at least part of the conductive portion, the surface being a surface that has come into sliding contact with the die, and wherein a wavelength of the laser is in a wavelength absorption range of the soft magnetic particles. 4. A method for producing a compact by using coated soft magnetic powder that includes a plurality of coated soft magnetic particles constituted by soft magnetic particles and insulating coatings coating outer peripheries of the soft magnetic particles, the method comprising: a raw material preparation step of preparing a raw compact by press-forming the coated soft magnetic powder in a die; a raw compact withdrawal step of withdrawing the raw compact from the die after it that has been press-formed; and an irradiation step of irradiating at least part of a surface of the raw compact with a laser, wherein the laser is one type of laser selected from a YAG laser, a YVO 4 laser, and a fiber laser, wherein the raw compact withdrawal step causes a surface of the raw compact to come into sliding contact with the die during withdrawal of the raw compact from the die forming a conductive portion, wherein the irradiation step is performed on at least part of a surface of the raw compact to remove at least part of the conductive portion, the surface being a surface that has come into sliding contact with the die, and wherein, when an average output of the laser is P (W) and an irradiation area of the laser is S (mm 2 ), an energy density U (W/mm 2 )=P/S of the laser satisfies 37.0≤U≤450.0. 5. A method for producing a compact by using coated soft magnetic powder that includes a plurality of coated soft magnetic particles constituted by soft magnetic particles and insulating coatings coating outer peripheries of the soft magnetic particles, the method comprising: a raw material preparation step of preparing a raw compact by press-forming the coated soft magnetic powder in a die; a raw compact withdrawal step of withdrawing the raw compact from the die after it that has been press-formed; and an irradiation step of irradiating at least part of a surface of the raw compact with a laser, wherein the laser is one type of laser selected from a YAG laser, a YVO 4 laser, and a fiber laser, wherein the raw compact withdrawal step causes a surface of the raw compact to come into sliding contact with the die during withdrawal of the raw compact from the die forming a conductive portion, wherein the irradiation step is performed on at least part of a surface of the raw compact to remove at least part of the conductive portion, the surface being a surface that has come into sliding contact with the die, and wherein a ratio of an irradiation interval to a beam diameter of the laser is 0.35 or less. 6. A method for producing a compact by using coated soft magnetic powder that includes a plurality of coated soft magnetic particles constituted by soft magnetic particles and insulating coatings coating outer peripheries of the soft magnetic particles, the method comprising: a raw material preparation step of preparing a raw compact by press-forming the coated soft magnetic powder in a die; a raw compact withdrawal step of withdrawing the raw compact from the die after it that has been press-formed; and an irradiation step of irradiating at least part of a surface of the raw compact with a laser, wherein the laser is one type of laser selected from a YAG laser, a YVO 4 laser, and a fiber laser, wherein the raw compact withdrawal step causes a surface of the raw compact to come into sliding contact with the die during withdrawal of the raw compact from the die forming a conductive portion, wherein the irradiation step is performed on at least part of a surface of the raw compact to remove at least part of the conductive portion, the surface being a surface that has come into sliding contact with the die, and wherein a number of times of laser overlap is 5 or more. 7. A compact produced by the method for producing a compact according to claim 1 .