Powder particles comprising thermoplastic resin particles and process for producing green body using the same

The invention claimed is: 1. Powder particles, comprising large particles to be a main component of a sintering body, and thermoplastic resin particles having a smaller particle size than the large particles and loaded on surfaces of the large particles, wherein the thermoplastic resin particles are scattered on the surfaces of the large particles and are within a volume ratio range of from 2% to 5% with respect to the large particles; the small particles having higher sinterability to that of the large particles or a function as an auxiliary sintering additives and a smaller particle size than the large particles are attached on the surfaces of the large particles; the small particles have an average particle size of not more than 150 nm. 2. The powder particles recited in claim 1 , wherein the large particles have an average particles size of not less than 500 nm and not more than 5 μm. 3. The powder particles recited in claim 1 , wherein the surfaces of the large particles are covered with the small particles at a coverage ratio of not less than 40% and not more than 100% with respect to the entire surfaces of the large particles. 4. The powder particles recited in claim 1 , wherein part or all of the thermoplastic resin particles are loaded on the large particles by way of the small particles attached on the surfaces of the large particles, and located in a manner to be scattered on the surfaces of the large particles. 5. The powder particles recited in claim 1 , wherein each of the large particles, the small particles, and the thermoplastic resin particles has a polymer electrolyte on a surface thereof, and contacts another particle by way of the polymer electrolyte. 6. The powder particles recited in claim 5 , wherein the polymer electrolyte held by each of the particles has a thickness of not more than 20 nm. 7. Powder particles, comprising large particles to be a main component of a sintering body, and thermoplastic resin particles having a smaller particle size than the large particles and loaded on surfaces of the large particles, wherein the thermoplastic resin particles are scattered on the surfaces of the large particles in an amount within a predetermined volume ratio range with respect to the large particles, and the average number of the thermoplastic resin particles loaded on a surface of each of the large particles is not less than 4 and not more than 120; the small particles having higher sinterability to that of the large particles or a function as an auxiliary sintering additives and a smaller particle size than the large particles are attached on the surfaces of the large particles; the small particles have an average particle size of not more than 150 nm. 8. The powder particles recited in claim 7 , wherein the large particles have an average particles size of not less than 500 nm and not more than 5 μm. 9. The powder particles recited in claim 7 , wherein the surfaces of the large particles are covered with the small particles at a coverage ratio of not less than 40% and not more than 100% with respect to the entire surfaces of the large particles. 10. The powder particles recited in claim 7 , wherein part or all of the thermoplastic resin particles are loaded on the large particles by way of the small particles attached on the surfaces of the large particles, and located in a manner to be scattered on the surfaces of the large particles. 11. The powder particles recited in claim 7 , wherein each of the large particles, the small particles, and the thermoplastic resin particles has a polymer electrolyte on a surface thereof, and contacts another particle by way of the polymer electrolyte. 12. The powder particles recited in claim 11 , wherein the polymer electrolyte held by each of the particles has a thickness of not more than 20 nm. 13. A process for producing a green body, comprising: a first surface charge control step of controlling, in liquid, surface charge of large particles to be a main component of a sintered body; a small particle surface charge control step of controlling, in liquid, surface charge of small particles having higher sinterability to that of the large particles or a function as an auxiliary sintering additives and a smaller particle size than the large particles so as to have an opposite polarity to that of surface charge of the large particles treated in the first surface charge control step; a precompositing step of fabricating composite particles of the large particles and the small particles by mixing, in liquid, the small particles treated in the small particle surface charge control step and the large particles treated in the first surface charge control step to composite the large particles and the small particles by electrostatic attraction; a second surface charge control step of controlling, in liquid, surface charge of thermoplastic resin particles having a smaller particle size than the large particles so as to have an opposite polarity to that of surface charge of the composite particles fabricated in the precompositing step in order to attach the thermoplastic resin particles on the large particles treated in the first surface charge control step by electrostatic attraction; a compositing step of mixing, in liquid, the composite particles of the large particles and the small particles fabricated in the precompositing step and the thermoplastic resin particles treated in the second surface charge control step to further composite the composite particles and the thermoplastic resin particles by electrostatic attraction; and a green body forming step of shaping a green body by using the composite particles obtained by the compositing step, heating the green body above a melting temperature of the thermoplastic resin particles contained in the green body and then cooling the heated green body. 14. The process for producing a green body, recited in claim 13 , wherein the green body forming step is to shape the green body by using a slurry in which the composite particles obtained in the compositing step are dispersed, dry the shaped green body and then heat the dried green body above the melting temperature of the thermoplastic resin particles.