Method for setting shot-peening process condition
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B24C-001/10
B24C-007/00
C21D-007/06
출원번호
US-0254760
(2010-01-29)
등록번호
US-9289880
(2016-03-22)
우선권정보
JP-2009-050673 (2009-03-04)
국제출원번호
PCT/JP2010/051202
(2010-01-29)
§371/§102 date
20110920
(20110920)
국제공개번호
WO2010/100984
(2010-09-10)
발명자
/ 주소
Yamada, Takeshi
Inoue, Akiko
출원인 / 주소
MITSUBISHI HEAVY INDUSTRIES, LTD.
대리인 / 주소
Wenderoth, Lind & Ponack, L.L.P.
인용정보
피인용 횟수 :
1인용 특허 :
15
초록▼
A method for setting a shot-peening process condition includes a step of obtaining, for each of a plurality of peening conditions for a first combination as a combination of a shot peening processing apparatus and media, a saturation time based on a saturation curve indicating a change in an arc hei
A method for setting a shot-peening process condition includes a step of obtaining, for each of a plurality of peening conditions for a first combination as a combination of a shot peening processing apparatus and media, a saturation time based on a saturation curve indicating a change in an arc height value of an Almen strip against a projection time. The method includes a step of determining a first optimum peening condition corresponding to the first combination based on the saturation time.
대표청구항▼
1. A method for setting a shot peening process condition comprising: obtaining, for each of a plurality of peening conditions for a first combination as a combination of a shot peening processing apparatus and media, a saturation time based on a saturation curve indicating a change in an arc height
1. A method for setting a shot peening process condition comprising: obtaining, for each of a plurality of peening conditions for a first combination as a combination of a shot peening processing apparatus and media, a saturation time based on a saturation curve indicating a change in an arc height value of an Almen strip with respect to a projection time, each of said plurality of peening conditions specifying values of condition factors;determining optimum values of said condition factors of a first optimum peening condition corresponding to said first combination from said plurality of peening conditions based on said saturation time; anddetermining a spot movement condition based on a relation between a projection time of said media and an area or a width of a region of a test piece, where a dimpled area rate is saturated,wherein said condition factors of said plurality of peening conditions include:a first condition factor; anda second condition factor;wherein said plurality of peening conditions includes:a first peening condition;a second peening condition different from said first peening condition in only said value of said first condition factor;a third peening condition; anda fourth peening condition different from said third peening condition in only said value of said second condition factor;wherein said determining said optimum values of said condition factors of said first optimum peening condition based on said saturation time includes:determining said optimum value of said first condition factor in said first optimum peening condition based on a first saturation time under said first peening condition and a second saturation time under said second peening condition; anddetermining said optimum value of said second condition factor in said first optimum peening condition based on a third saturation time under said third peening condition and a fourth saturation time under said fourth peening condition;wherein said shot peening processing apparatus projects said media from a nozzle by using air; andwherein said first condition factor and said second condition factor are two of a flow rate of said media, a pressure of said air, an inner diameter of said nozzle, and a movement speed of said nozzle. 2. The method for setting said shot peening process condition according to claim 1, wherein said determining said spot movement condition comprises: said media to said test piece under said first optimum peening condition by said shot peening processing apparatus;obtaining a relation between a distribution of said dimpled area rate in said test piece and said projection time; andobtaining, based on said relation between said distribution of said dimpled area rate and said projection time, a relation between said area or said width of said region of said test piece, in which said dimpled area rate is saturated, and said projection time,wherein said dimpled area rate indicates an area occupied by dimples formed by said media per unit area. 3. The method for setting said shot peening process condition according to claim 2, wherein said determining said spot movement condition further comprises: determining said spot movement condition based on said relation between said area or said width of said region of said test piece and said projection time,wherein said spot movement condition indicates a pitch of movement trajectories along which a spot moves,wherein said movement trajectories are parallel to each other, andwherein said spot is a region of a work, which is hit by said media when said shot peening processing apparatus processes said work. 4. The method for setting said shot peening process condition according to claim 1, further comprising, when an intensity corresponding to said first optimum peening condition does not match an intensity required for a work: obtaining a saturation time for each of a plurality of peening conditions for a second combination as a combination of said shot peening processing apparatus and said media; anddetermining a second optimum peening condition corresponding to said second combination based on said saturation time for each of said plurality of peening conditions for said second combination. 5. The method for setting said shot peening process condition according to claim 1, further comprising obtaining an intensity under said first optimum peening condition. 6. The method for setting said shot peening process condition according to claim 1, further comprising: obtaining a coverage time as a projection time required for a coverage of 100% for each of said plurality of peening conditions by using said Almen strip used in said obtaining said saturation time;determining a third optimum peening condition corresponding to said first combination based on said coverage time; anddetermining said fourth peening condition based on said first peening condition and said third peening condition. 7. A method for manufacturing a metal part comprising: determining a shot peening process condition; andprocessing a work based on said shot peening process condition,wherein said determining said shot peening process condition includes:obtaining, for each of a plurality of peening conditions for a first combination as a combination of a shot peening processing apparatus and media, a saturation time based on a saturation curve indicating a change in an arc height value of an Almen strip with respect to a projection time, each of said plurality of peening conditions specifying values of condition factors;determining optimum values of said condition factors of a first optimum peening condition corresponding to said first combination from said plurality of peening conditions based on said saturation time; anddetermining a spot movement condition based on a relation between a projection time of said media and an area or a width of a region of a test piece, where a dimpled area rate is saturated,wherein said condition factors of said plurality of peening conditions include a first condition factor and a second condition factor;wherein said plurality of peening conditions includes:a first peening condition;a second peening condition different from said first peening condition in only said value of said first condition factor;a third peening condition; anda fourth peening condition different from said third peening condition in only said value of said second condition factor;wherein said determining said optimum values of said condition factors of said first optimum peening condition based on said saturation time includes:determining said optimum value of said first condition factor in said first optimum peening condition based on a first saturation time under said first peening condition and a second saturation time under said second peening condition; anddetermining said optimum value of said second condition factor in said first optimum peening condition based on a third saturation time under said third peening condition and a fourth saturation time under said fourth peening condition;wherein said shot peening processing apparatus projects said media from a nozzle by using air; andwherein said first condition factor and said second condition factor are two of a flow rate of said media, a pressure of said air, an inner diameter of said nozzle, and a movement speed of said nozzle. 8. The method for manufacturing said metal part according to claim 7, wherein said determining said spot movement condition comprises: projecting said media to said test piece under said first optimum peening condition by said shot peening processing apparatus;obtaining a relation between a distribution of said dimpled area rate in said test piece and said projection time; andobtaining, based on said relation between said distribution of said dimpled area rate and said projection time, a relation between said area or said width of said region of said test piece, in which said dimpled area rate is saturated, and said projection time,wherein said dimpled area rate indicates an area occupied by dimples formed by said media per unit area. 9. The method for manufacturing said metal part according to claim 8, wherein said determining said spot movement condition further comprises: determining said spot movement condition based on said relation between said area or said width of said region of said test piece and said projection time,wherein said spot movement condition indicates a pitch of movement trajectories of a spot as a region of said work which is hit by said media when said shot peening processing apparatus processes said work, andwherein said movement trajectories are parallel to each other. 10. The method for manufacturing said metal part according to claim 7, further comprising, when an intensity corresponding to said first optimum peening condition does not match an intensity required for a said work: obtaining a saturation time for each of a plurality of peening conditions for a second combination as a combination of said shot peening processing apparatus and said media; anddetermining a second optimum peening condition corresponding to said second combination based on said saturation time corresponding to said second combination. 11. The method for manufacturing said metal part according to claim 7, further comprising obtaining an intensity under said first optimum peening condition. 12. The method for manufacturing said metal part according to claim 7, further comprising: obtaining a coverage time as a projection time required for a coverage of 100% for each of said plurality of peening conditions by using said Almen strip used in said obtaining said saturation time;determining a third optimum peening condition corresponding to said first combination based on said coverage time; anddetermining said fourth peening condition based on said first peening condition and said third optimum peening condition. 13. A method for setting a shot peening process condition comprising: obtaining, for each of a plurality of peening conditions for a first combination as a combination of a shot peening processing apparatus and media, a saturation time based on a saturation curve indicating a change in an arc height value of an Almen strip with respect to a projection time, each of said plurality of peening conditions specifying values of condition factors;determining optimum values of said condition factors of a first optimum peening condition corresponding to said first combination from said plurality of peening conditions based on said saturation time; anddetermining a spot movement condition based on a relation between a projection time of said media and an area or a width of a region of a test piece, where a dimpled area rate is saturated,wherein said condition factors of said plurality of peening conditions include:a first condition factor; anda second condition factor;wherein said plurality of peening conditions includes:a first peening condition;a second peening condition different from said first peening condition in only said value of said first condition factor;a third peening condition; anda fourth peening condition different from said third peening condition in only said value of said second condition factor;wherein said determining said optimum values of said condition factors of said first optimum peening condition based on said saturation time includes:determining said optimum value of said first condition factor in said first optimum peening condition based on a first saturation time under said first peening condition and a second saturation time under said second peening condition; anddetermining said optimum value of said second condition factor in said first optimum peening condition based on a third saturation time under said third peening condition and a fourth saturation time under said fourth peening condition; andwherein said shot peening processing apparatus projects said media by using an impeller; andwherein said first condition factor and said second condition factor are two of a rotation speed of said impeller, a distance between said impeller and a surface to be processed, an angle between said impeller and said surface to be processed, a size of a projection outlet, a movement speed of a work, and a rotation speed of said work. 14. The method for setting said shot peening process condition according to claim 13, wherein said determining said spot movement condition comprises: projecting said media to said test piece under said first optimum peening condition by said shot peening processing apparatus;obtaining a relation between a distribution of said dimpled area rate in said test piece and said projection time; andobtaining, based on said relation between said distribution of said dimpled area rate and said projection time, a relation between said area or said width of said region of said test piece, in which said dimpled area rate is saturated, and said projection time,wherein said dimpled area rate indicates an area occupied by dimples formed by said media per unit area. 15. The method for setting said shot peening process condition according to claim 14, wherein said determining said spot movement condition further comprises: determining said spot movement condition based on said relation between said area or said width of said region of said test piece and said projection time,wherein said spot movement condition indicates a pitch of movement trajectories along which a spot moves,wherein said movement trajectories are parallel to each other, andwherein said spot is a region of said work, which is hit by said media when said shot peening processing apparatus processes said work. 16. The method for setting said shot peening process condition according to claim 13, further comprising, when an intensity corresponding to said first optimum peening condition does not match an intensity required for said work: obtaining a saturation time for each of a plurality of peening conditions for a second combination as a combination of said shot peening processing apparatus and said media; anddetermining a second optimum peening condition corresponding to said second combination based on said saturation time for each of said plurality of peening conditions for said second combination. 17. The method for setting said shot peening process condition according to claim 13, further comprising obtaining an intensity under said first optimum peening condition. 18. The method for setting said shot peening process condition according to claim 13, further comprising: obtaining a coverage time as a projection time required for a coverage of 100% for each of said plurality of peening conditions by using said Almen strip used in said obtaining said saturation time;determining a third optimum peening condition corresponding to said first combination based on said coverage time; anddetermining said fourth peening condition based on said first peening condition and said third peening condition. 19. A method for manufacturing a metal part comprising: determining a shot peening process condition; andprocessing a work based on said shot peening process condition,wherein said determining said shot peening process condition includes:obtaining, for each of a plurality of peening conditions for a first combination as a combination of a shot peening processing apparatus and media, a saturation time based on a saturation curve indicating a change in an arc height value of an Almen strip with respect to a projection time, each of said plurality of peening conditions specifying values of condition factors;determining optimum values of said condition factors of a first optimum peening condition corresponding to said first combination from said plurality of peening conditions based on said saturation time; anddetermining a spot movement condition based on a relation between a projection time of said media and an area or a width of a region of a test piece, where a dimpled area rate is saturated,wherein said condition factors of said plurality of peening conditions include a first condition factor and a second condition factor;wherein said plurality of peening conditions includes:a first peening condition;a second peening condition different from said first peening condition in only said value of said first condition factor;a third peening condition; anda fourth peening condition different from said third peening condition in only said value of said second condition factor;wherein said determining said optimum values of said condition factors of said first optimum peening condition based on said saturation time includes:determining said optimum value of said first condition factor in said first optimum peening condition based on a first saturation time under first peening condition and a second saturation time under said second peening condition; anddetermining said optimum value of said second condition factor in said first optimum peening condition based on a third saturation time under said third peening condition and a fourth saturation time under said fourth peening condition;wherein said shot peening processing apparatus projects said media by using an impeller; andwherein said first condition factor and said second condition factor are two of a rotation speed of said impeller, a distance between said impeller and a surface to be processed, an angle between said impeller and said surface to be processed, a size of a projection outlet, a movement speed of said work, and a rotation speed of said work. 20. The method for manufacturing said metal part according to claim 19, wherein said determining said spot movement condition comprises: projecting said media to said test piece under said first optimum peening condition by said shot peening processing apparatus;obtaining a relation between a distribution of said dimpled area rate in said test piece and said projection time; andobtaining, based on said relation between said distribution of said dimpled area rate and said projection time, a relation between said area or said width of said region of said test piece, in which said dimpled area rate is saturated, and said projection time,wherein said dimpled area rate indicates an area occupied by dimples formed by said media per unit area. 21. The method for manufacturing said metal part according to claim 20, wherein said determining said spot movement condition further comprises: determining said spot movement condition based on said relation between said area or said width of said region of said test piece and said projection time,wherein said spot movement condition indicates a pitch of movement trajectories of a spot as a region of said work which is hit by said media when said shot peening processing apparatus processes said work, andwherein said movement trajectories are parallel to each other. 22. The method for manufacturing said metal part according to claim 19, further comprising, when an intensity corresponding to said first optimum peening condition does not match an intensity required for said work: obtaining a saturation time for each of a plurality of peening conditions for a second combination as a combination of said shot peening processing apparatus and said media; anddetermining a second optimum peening condition corresponding to said second combination based on said saturation time corresponding to said second combination. 23. The method for manufacturing said metal part according to claim 19, further comprising obtaining an intensity under said first optimum peening condition. 24. The method for manufacturing said metal part according to claim 19, further comprising: obtaining a coverage time as a projection time required for a coverage of 100% for each of said plurality of peening conditions by using said Almen strip used in said obtaining said saturation time;determining a third optimum peening condition corresponding to said first combination based on said coverage time; anddetermining said fourth peening condition based on said first peening condition and said third optimum peening condition.
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이 특허에 인용된 특허 (15)
Yamamoto, Masatoshi; Kaga, Hideaki, Apparatus for detecting intensity of shot peening and replacement unit for the apparatus.
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