Method of producing Ti brazing strips or foils
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B21B-001/22
B21B-003/00
B21D-033/00
B23P-017/04
B32B-031/00
출원번호
US-0320068
(2002-12-16)
발명자
/ 주소
Chang, Chen-Chung S.
Jha, Bijendra
출원인 / 주소
Engineered Materials Solutions, Inc.
대리인 / 주소
Pearne & Gordon LLP
인용정보
피인용 횟수 :
8인용 특허 :
24
초록▼
A method for producing titanium alloy brazing strips and the resulting brazing strips and/or foils. The method uses a cold-rolling process without annealing to generate a titanium based multi-layer alloy strip or foil made up of discrete layers of titanium and an additional layer or layers of one or
A method for producing titanium alloy brazing strips and the resulting brazing strips and/or foils. The method uses a cold-rolling process without annealing to generate a titanium based multi-layer alloy strip or foil made up of discrete layers of titanium and an additional layer or layers of one or more metals, such as nickel and/or copper, for example, or alloys thereof, with the layer of titanium roll bonded without annealing to the layers of the additional metal(s). The resulting strip or foil can include, for example, Cu/Ti/Cu, Ni/Ti/Ni, and Ni/Ti/Cu, and also, for example, Cu/Ni/Ti/Ni/Cu, and Ni/Cu/Ti/Cu/Ni, among other combinations. The resulting strip or foil can be used for brazing, creating an alloy of the weight percentage of the original materials.
대표청구항▼
A method for producing titanium alloy brazing strips and the resulting brazing strips and/or foils. The method uses a cold-rolling process without annealing to generate a titanium based multi-layer alloy strip or foil made up of discrete layers of titanium and an additional layer or layers of one or
A method for producing titanium alloy brazing strips and the resulting brazing strips and/or foils. The method uses a cold-rolling process without annealing to generate a titanium based multi-layer alloy strip or foil made up of discrete layers of titanium and an additional layer or layers of one or more metals, such as nickel and/or copper, for example, or alloys thereof, with the layer of titanium roll bonded without annealing to the layers of the additional metal(s). The resulting strip or foil can include, for example, Cu/Ti/Cu, Ni/Ti/Ni, and Ni/Ti/Cu, and also, for example, Cu/Ni/Ti/Ni/Cu, and Ni/Cu/Ti/Cu/Ni, among other combinations. The resulting strip or foil can be used for brazing, creating an alloy of the weight percentage of the original materials. of moisture further comprises the selective application of steam.5. The method of claim 4 wherein the selective application of steam is applied with a sectioned moisture applicator.6. The method of claim 4 wherein a controller selectively applies steam to the pile fabric.7. The method of claim 1 wherein the selective application of moisture to the pile fabric is performed in accordance with a pattern.8. A method of tip shearing pile extending from a top surface of a backing of pile fabric to cut at least two levels of pile height, comprising: a. providing a tip shearing apparatus positioned for shearing tips of pile extending from said pile fabric with at least one blade, the greater a distance that said tips extend from said backing, the greater an amount is sheared;b. feeding said pile fabric to said shearing apparatus;c. prior to shearing said pile fabric, selectively applying moisture to the pile fabric to moisten selected pile relative to unselected pile with a moisture applicator;d. feeding said pile fabric a distance downstream from the moisture applicator to the shearing apparatus wherein said distance is sufficient to negate an effect of impingement forces of moisture application prior to shearing of selected and unselected pile; ande. shearing said selected and unselected pile with said shearing apparatus, such that selected pile is cut shorter than unselected pile.9. The method of claim 8 wherein the pile fabric is fed past the moisture applicator and then the tip shearing apparatus.10. The method of claim 9 wherein the pile fabric is continuously fed intermediate the moisture applicator and the tip shearing apparatus.11. The method of claim 9 wherein the moisture applicator applies steam to the pile fabric.12. The method of claim 9 wherein the pile fabric is moistened in accordance with a pattern.13. The method of claim 12 wherein a controller provides the pattern to the moisture applicator.14. The method of claim 9 wherein the moisture applicator is separated into sections, and said sections selectively apply moisture to the pile fabric.15. A method of shearing pile extending from backing of pile fabric to cut at least two levels of pile height, comprising: a. providing a shearing apparatus positioned for shearing tips of pile extending from a pile fabric with at least one blade, said at least one blade spaced a predetermined distance from a backing;b. feeding said pile fabric to said shearing apparatus;c. prior to shearing such pile fabric, selectively applying moisture to the pile fabric to moisten selected pile relative to unselected pile; andd. shearing said selected and unselected pile with said shearing apparatus independently of selectively applying moisture to the pile fabric, such that said selected pile is cut to a shorter height than unselected pile from said backing.16. The method of claim 15 when the selected application of moisture is applied utilizing a moisture applicator.17. The method of claim 16 wherein the moisture applicator selectively applies steam to the pile fabric.18. The method of claim 15 wherein the selected application of moisture is applied in accordance with a pattern. inscription of memorialization, interring the deceased in the inscribed casket and presenting the inscribed plaque to the loved one of the deceased. A combination of memorial items for memorializing a deceased comprises a casket and a memorial plaque, with the casket and plaque having inscribed thereon the same memorialization inscription.
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