Method for manufacturing three-dimensional shaped object and three-dimensional shaping apparatus

What is claimed is: 1. A method for manufacturing a three-dimensional shaped object, comprising: a plasticizing step of plasticizing at least a part of a shaping material containing a thermoplastic resin to generate a plasticized material; a fiber introducing step including at least one of a step of introducing a covered fiber material, which is a first fiber material covered with a covering material, into the plasticized material after being discharged from a nozzle opening, and a step of introducing the covered fiber material into the shaping material or the plasticized material before being discharged from the nozzle opening; a cutting step of cutting the covered fiber material after the fiber introducing step, the cutting step including a step of cutting the covered fiber material by operating a discharge amount control mechanism, which is configured to control a discharge amount of the plasticized material from the nozzle opening, that is provided upstream of the nozzle opening to cut the covered fiber material disposed between the discharge amount control mechanism and a cutter blade provided in an introduction flow path that delivers the plasticized material to the nozzle opening; and a shaping step of shaping a three-dimensional shaped object including the covered fiber material, wherein the discharge amount control mechanism has a valve that rotates about an axis intersecting a direction in which the introduction flow path extends, and wherein in the cutting step, the covered fiber material is sandwiched and cut between the valve and the cutter blade by rotating the valve. 2. The method for manufacturing a three-dimensional shaped object according to claim 1 , wherein an absolute value of a difference between an SP value of the thermoplastic resin and an SP value of the covering material is 5.0 or less. 3. The method for manufacturing a three-dimensional shaped object according to claim 1 , wherein the covering material includes a thermoplastic resin of the same type as the thermoplastic resin contained in the plasticized material. 4. The method for manufacturing a three-dimensional shaped object according to claim 1 , further comprising: a covering step of, before the fiber introducing step, generating the covered fiber material by passing the fiber material through a storage portion in which the covering material is stored. 5. A method for manufacturing a three-dimensional shaped object, comprising: a plasticizing step of plasticizing at least a part of a shaping material containing a thermoplastic resin to generate a plasticized material; a fiber introducing step including at least one of a step of introducing a covered fiber material, which is a first fiber material covered with a covering material, into the plasticized material after being discharged from a nozzle opening, and a step of introducing the covered fiber material into the shaping material or the plasticized material before being discharged from the nozzle opening; a cutting step of cutting the covered fiber material after the fiber introducing step, the cutting step including a step of cutting the covered fiber material by operating a discharge amount control mechanism, which is configured to control a discharge amount of the plasticized material from the nozzle opening, that is provided upstream of the nozzle opening to cut the covered fiber material disposed between the discharge amount control mechanism and a cutter blade provided in an introduction flow path that delivers the plasticized material to the nozzle opening; and a shaping step of shaping a three-dimensional shaped object including the covered fiber material, wherein the plasticizing step includes, in a plasticizing apparatus that includes a flat screw that has a groove forming surface in which a groove portion is formed, a facing portion that has a facing surface facing the groove forming surface and that is formed with a communication hole communicating with the nozzle opening, and a heater that is configured to heat the flat screw or the facing portion, a step of guiding at least a part of the thermoplastic resin supplied between the flat screw the facing portion to the communication hole while plasticizing the thermoplastic resin by rotation of the flat screw and heating of the heater. 6. The method for manufacturing a three-dimensional shaped object according to claim 5 , wherein the groove forming surface or the facing surface has an introduction groove that is configured to guide the fiber material from a side of the flat screw or the facing portion to the communication hole, and in the fiber introducing step, the covered fiber material is introduced into the shaping material through the introduction groove. 7. The method for manufacturing a three-dimensional shaped object according to claim 5 , wherein the flat screw has a through hole that is opened in the groove forming surface and that communicates with the communication hole, and the fiber introducing step includes a step of introducing the covered fiber material into the plasticized material through the through hole. 8. The method for manufacturing a three-dimensional shaped object according to claim 7 , wherein the fiber introducing step includes a pressure control step of controlling a pressure in the through hole to be higher than a pressure in the communication hole. 9. The method for manufacturing a three-dimensional shaped object according to claim 1 , wherein the shaping step includes: a moving step of relatively moving a stage at which the three-dimensional shaped object is supported and a nozzle unit having the nozzle opening; and a fiber introduction control step of changing an introduction speed at which the covered fiber material is introduced into the shaping material or the plasticized material in accordance with a relative movement speed between the nozzle unit and the stage in the moving step. 10. The method for manufacturing a three-dimensional shaped object according to claim 1 , wherein the discharge amount control mechanism is driven by a motor, and the fiber introducing step includes a step of transmitting a driving force generated by the motor to a conveying unit of the covered fiber material to convey the covered fiber material. 11. A three-dimensional shaping apparatus, comprising: a plasticizing unit configured to plasticize at least a part of a shaping material containing a thermoplastic resin to generate a plasticized material; a discharging unit having a nozzle opening; a fiber introducing unit having at least one of a function of introducing a covered fiber material, which is a fiber material covered with a covering material, into the plasticized material after being discharged from the nozzle opening, and a function of introducing the covered fiber material into the shaping material or the plasticized material before being discharged from the nozzle opening; a discharge control mechanism configured to control a discharge amount of the plasticized material from the nozzle opening, the discharge control mechanism being provided upstream of the nozzle opening; a cutter blade cooperating with the discharge control mechanism to cut the covered fiber material disposed between the discharge amount control mechanism and the cutter blade, the cutter blade being provided in an introduction flow path that delivers the plasticized material to the nozzle opening; a control unit configured to control the plasticizing unit, the discharging unit, and the fiber introducing unit to shape a three-dimensional shaped object including the covered fiber material; and a discharge amount control mechanism configured to control a discharge amount of the pla