Aluminum impact extruded bottle with threaded neck made from recycled aluminum and enhanced alloys
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B21C-023/00
B21C-023/18
B23P-015/00
B65D-001/02
B65D-041/04
C22C-001/00
B21D-051/26
C22C-021/00
B21H-003/04
출원번호
US-0246728
(2014-04-07)
등록번호
US-9517498
(2016-12-13)
발명자
/ 주소
Siles, John L.
van de Liefvoort, Matthias K.
Jentzsch, Kevin Reed
출원인 / 주소
Ball Corporation
대리인 / 주소
Sheridan Ross P.C.
인용정보
피인용 횟수 :
1인용 특허 :
72
초록▼
The present invention relates generally to forming a threaded neck in a metal bottle manufactured by a process known as impact extrusion. More specifically, the present invention relates to methods, apparatus and alloy compositions used in the impact extrusion manufacturing of containers and other a
The present invention relates generally to forming a threaded neck in a metal bottle manufactured by a process known as impact extrusion. More specifically, the present invention relates to methods, apparatus and alloy compositions used in the impact extrusion manufacturing of containers and other articles with sufficient strength characteristics to allow threading the container necks to receive a threaded closure on the threaded neck.
대표청구항▼
1. A process for manufacturing a threaded impact extruded metallic bottle for a beverage, comprising: forming a slug with an aluminum alloy, said aluminum alloy blended from approximately 60% of a scrap aluminum alloy and approximately 40% of a 1070 aluminum alloy, wherein said scrap aluminum alloy
1. A process for manufacturing a threaded impact extruded metallic bottle for a beverage, comprising: forming a slug with an aluminum alloy, said aluminum alloy blended from approximately 60% of a scrap aluminum alloy and approximately 40% of a 1070 aluminum alloy, wherein said scrap aluminum alloy comprises: between about 0.20 wt. % Si and about 0.32 wt. % Si;between about 0.47 wt. % Fe and about 0.59 wt. % Fe;between about 0.10 wt. % Cu and about 0.22 wt. % Cu;between about 0.78 wt. % Mn and about 0.90 wt. % Mn;between about 0.54 wt. % Mg and about 0.66 wt. % Mg;between about 0.06 wt. % Zn and about 0.18 wt. % Zn;between about 0.00 wt. % Cr and about 0.08 wt. % Cr; andbetween about 0.00 wt. % Ti and about 0.08 wt. % Ti;deforming said slug into a preferred shape in an impact extrusion process to form said metallic bottle; andforming threads on a neck portion of said metallic bottle, said threads configured to receive a threaded closure which can be selectively opened and closed after said metallic bottle is filled with the beverage. 2. The process of claim 1, wherein said scrap aluminum alloy is comprised of a scrap metal of at least one of a 3104, a 3004, a 3003, a 3103, a 3013 and a 3105 aluminum alloy. 3. The process of claim 2, wherein a titanium boride material is added to said aluminum alloy. 4. The process of claim 3, wherein forming said slug further comprises forming individual slugs from a slab formed from a casting apparatus, and annealing said individual slugs in a continuous annealing process. 5. The process of claim 1, wherein said aluminum alloy comprises: between about 97.7 wt. % aluminum and about 98.50 wt. % aluminum;between about 0.16 wt. % Si and about 0.24 wt. % Si;between about 0.37 wt. % Fe and about 0.48 wt. % Fe;between about 0.08 wt. % Cu and about 0.15 wt. % Cu;between about 0.48 wt. % Mn and about 0.71 wt. % Mn;between about 0.34 wt. % Mg and about 0.52 wt. % Mg;between about 0.06 wt. % Zn and about 0.12 wt. % Zn;between about 0.01 wt. % Cr and about 0.04 wt. % Cr; andbetween about 0.00 wt. % Ti and about 0.04 wt. % Ti. 6. The process of claim 1, wherein said aluminum alloy consists of: about 98.33 wt. % aluminum;about 0.18 wt. % Si;about 0.39 wt. % Fe;about 0.10 wt. % Cu;about 0.51 wt. % Mn;about 0.37 wt. % Mg;about 0.08 wt. % Zn;about 0.02 wt. % Cr; andabout 0.02 wt. % Ti. 7. The process of claim 1, wherein said threads have an exterior diameter of between approximately 1.0 inches and approximately 1.6 inches, and wherein said threads have a pitch of between approximately 0.10 inches and approximately 0.15 inches. 8. The process of claim 7, wherein a body portion of said metallic bottle has a thickness between about 0.0098 inches and about 0.0155 inches. 9. The process of claim 8, wherein said metallic bottle has a diameter of between approximately 2.6 inches and approximately 2.85 inches and a height between approximately 6.0 inches and approximately 7.4 inches. 10. The process of claim 1, further comprising annealing said slug within a furnace at a temperature of between about 1,000° F. and about 1,112° F. for between about 5 hours and 9 hours. 11. The process of claim 1, further comprising annealing said slug to a temperature of between about 842° F. and about 1058° F. 12. The process of claim 1, wherein said aluminum alloy comprises: between 0.34 wt. % Mg and 0.40 wt. % Mg;between 0.16 wt. % Si and 0.20 wt. % Si; andbetween 0.37 wt. % Fe and 0.41 wt. % Fe. 13. A method of impact extruding and threading a neck portion of a metallic bottle formed of a recycled aluminum alloy, comprising: providing scrap aluminum material;melting said scrap aluminum material with a 1070 aluminum alloy to form said recycled aluminum alloy, wherein said recycled aluminum alloy comprises: between 97.70 wt. % aluminum and 98.50 wt. % aluminum,between 0.16 wt. % Si and 0.24 wt. % Si,between 0.37 wt. % Fe and 0.48 wt. % Fe,between 0.08 wt. % Cu and 0.15 wt. % Cu,between 0.48 wt. % Mn and 0.71 wt. % Mn,between 0.34 wt. % Mg and 0.52 wt. % Mg,between 0.06 wt. % Zn and 0.12 wt. % Zn,between 0.01 wt. % Cr and 0.04 wt. % Cr, andbetween 0.00 wt. % Ti and 0.04 wt. % Ti;casting said recycled aluminum alloy into a slab;rolling said slab to a specified thickness;cooling said slab at an ambient temperature of between about 59° F. to about 122° F.;punching slugs from said cooled slab;annealing said slugs, wherein a peak temperature of said slugs is between about 842° F. to about 1058° F.;impact extruding the annealed slug to form an extruded tube;forming a bottom dome portion on said extruded tube;necking said extruded tube to form said metallic bottle, said metallic bottle having said bottom dome portion, a body portion, said neck portion extending upwardly from said body portion, and an opening positioned on an uppermost portion of said neck portion;trimming at least a portion of said uppermost portion of said neck portion; andforming threads in said neck portion of said metallic bottle, said threads adapted to threadably engage a closure after said metallic bottle has been filled with a beverage, and wherein said metallic bottle is capable of withstanding an interior pressure after being filled and sealed with said closure. 14. The method of claim 13, wherein said recycled aluminum alloy comprises: 97.88 wt. % aluminum;0.22 wt. % Si;0.46 wt. % Fe;0.13 wt. % Cu;0.68 wt. % Mn;0.49 wt. % Mg;0.10 wt. % Zn;0.02 wt. % Cr; and0.02 wt. % Ti. 15. The method of claim 13, wherein said threads are formed by a thread forming device, said thread forming device comprising: a chuck to hold said metallic bottle in a predetermined position;an inner core piece with a first thread forming surface operable to apply a force to an interior surface of said neck portion of said metallic bottle; andan outer core piece with a second thread forming surface operable to apply a force to an exterior surface of said neck portion of said metallic bottle, wherein the thread forming device is operable to rotate around an axial center of said metallic bottle. 16. The method of claim 15, further comprising sealing said opening of said metallic bottle with a ROPP closure, said sealing comprising: placing a ROPP closure over said threads in said neck portion of said metallic bottle, said ROPP closure comprising a top portion, a generally cylindrical body portion extending downwardly from said top portion, a detachable pilfer band formed on a lowermost portion of said cylindrical body portion, an open aperture facing downward, and a liner in an interior top portion of said ROPP closure, wherein said cylindrical body portion of said ROPP closure is unthreaded;pressing said ROPP closure downwardly onto sealing surfaces formed on said uppermost portion of said neck portion of said metallic bottle, wherein said liner of said ROPP closure is compressed between said sealing surfaces and said top portion of said ROPP closure;pressing a thread roller against an exterior surface of said cylindrical body portion of said ROPP closure, wherein said thread roller applies a compressive force to said cylindrical body portion and rotates around the ROPP closure to form threads in said cylindrical body portion; andpressing a pilfer roller against an exterior surface of said pilfer band to prevent said pilfer band from being removed from said neck portion of said metallic bottle when said ROPP closure is removed from said metallic bottle. 17. The method of claim 13, wherein said impact extruding of said annealed slug to form said extruded tube comprises: placing said annealed slug in a die having a conical shape and a hardness of between approximately 920 HV and approximately 1080 HV; andimpacting said annealed slug with a steel punch having a predetermined shape and a hardness of between approximately 600 HV and approximately 760 HV. 18. The method of claim 13, wherein said slug has a diameter of between about 1.61 inches and about 1.91 inches, a height between about 0.17 inches and about 0.27 inches, and a mass of between about 0.69 ounces and about 0.875 ounces. 19. A method of forming a metallic bottle for a beverage in an impact extrusion process, comprising: melting scrap aluminum material with a 1070 aluminum alloy to form a recycled aluminum alloy that comprises: between 97.70 wt. % aluminum and 98.50 wt. % aluminum,between 0.16 wt. % Si and 0.24 wt. % Si,between 0.37 wt. % Fe and 0.48 wt. % Fe,between 0.08 wt. % Cu and 0.15 wt. % Cu,between 0.48 wt. % Mn and 0.71 wt. % Mn,between 0.34 wt. % Mg and 0.52 wt. % Mg,between 0.06 wt. % Zn and 0.12 wt. % Zn,between 0.01 wt. % Cr and 0.04 wt. % Cr, andbetween 0.00 wt. % Ti and 0.04 wt. % Ti;forming a slug with the recycled aluminum alloy;deforming the slug into a preferred shape in an impact extrusion process to form the metallic bottle; andforming threads on a neck portion of the metallic bottle, the threads configured to receive a threaded closure which can be selectively opened and closed after the metallic bottle is filled with the beverage. 20. The method of claim 19, wherein said scrap aluminum material comprises: between about 0.20 wt. % Si and about 0.32 wt. % Si;between about 0.47 wt. % Fe and about 0.59 wt. % Fe;between about 0.10 wt. % Cu and about 0.22 wt. % Cu;between about 0.78 wt. % Mn and about 0.90 wt. % Mn;between about 0.54 wt. % Mg and about 0.66 wt. % Mg;between about 0.06 wt. % Zn and about 0.18 wt. % Zn;between about 0.00 wt. % Cr and about 0.08 wt. % Cr; andbetween about 0.00 wt. % Ti and about 0.08 wt. % Ti. 21. The method of claim 19, wherein the recycled aluminum alloy comprises: between about 97.88 wt. % aluminum and about 98.33 wt. % aluminum;between about 0.18 wt. % Si and about 0.22 wt. % Si;between about 0.39 wt. % Fe and about 0.46 wt. % Fe;between about 0.10 wt. % Cu and about 0.13 wt. % Cu;between about 0.51 wt. % Mn and about 0.68 wt. % Mn;between about 0.37 wt. % Mg and about 0.49 wt. % Mg;between about 0.08 wt. % Zn and about 0.10 wt. % Zn;about 0.02 wt. % Cr; andabout 0.02 wt. % Ti.
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