Aluminum x-ray transmissive window for an x-ray tube vacuum vessel
First Claim
1. An x-ray transmissive window assembly for an x-ray tube vacuum vessel, comprising:
- a non-toxic, ductile, transmissive window having a sufficiently low x-ray attenuation coefficient to efficiently allow transmission of diagnostic x-rays; and
a transition layer comprising a metal and forming a vacuum sealed joint with said transmissive window, said vacuum sealed joint capable of withstanding the operating environment of said x-ray tube vacuum vessel.
1 Assignment
0 Petitions
Accused Products
Abstract
An x-ray transmissive window assembly for use in metal framed x-ray tubes is formed of at least two layers of metal joined by explosion welding. An x-ray transmissive window, preferably comprising aluminum or an aluminum alloy, is joined to a transition layer, which is typically the same material as the x-ray tube vacuum vessel, to form the transmissive window assembly. The transmissive window is formed in the assembly by removing the transition layer material from the central region. A weld flange is prepared by removing the x-ray transmissive window material from the periphery of the assembly. The assembly is then welded into the x-ray tube vacuum vessel using traditional techniques. In another embodiment, a multi-layered window assembly comprises an x-ray transmissive window, a transition layer weldable to an x-ray tube vacuum vessel, and an intermediate layer that acts as a mask or aperture to attenuate peripheral radiation and clearly define the edges of the transmitted x-ray beam. The intermediate layer also acts as a diffusion barrier that prevents the formation of a brittle intermetallic layer between the transmissive window and transition layers during high temperature operation. Additionally, according to the present invention, an x-ray system comprising the above-described window assembly is disclosed.
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Citations
37 Claims
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1. An x-ray transmissive window assembly for an x-ray tube vacuum vessel, comprising:
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a non-toxic, ductile, transmissive window having a sufficiently low x-ray attenuation coefficient to efficiently allow transmission of diagnostic x-rays; and a transition layer comprising a metal and forming a vacuum sealed joint with said transmissive window, said vacuum sealed joint capable of withstanding the operating environment of said x-ray tube vacuum vessel. - View Dependent Claims (2, 3, 4, 5, 6, 23, 24, 25, 26)
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7. An x-ray transmissive window assembly for an x-ray tube vacuum vessel, comprising:
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a non-toxic, ductile, transmissive window having a sufficiently low x-ray attenuation coefficient to efficiently allow transmission of diagnostic x-rays; and an intermediate layer for attenuating x-rays and a transition layer, wherein a vacuum sealed joint is formed between said transmissive window, said intermediate layer, and said transition layer, said vacuum sealed joint capable of withstanding the operating environment of said x-ray tube vacuum vessel, and wherein said transmissive window comprises aluminum. - View Dependent Claims (8, 9, 10, 11, 27, 28, 29)
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12. An x-ray generating device, comprising:
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an x-ray tube vacuum vessel; an x-ray transmissive window assembly comprising a non-toxic, ductile, transmissive window having a sufficiently low x-ray attenuation coefficient to efficiently allow transmission of diagnostic x-rays, and that provides sufficient structural support within the operating environment of said x-ray tube vacuum vessel; and a transition layer comprising a metal and forming a vacuum sealed joint with said transmissive window, said vacuum sealed joint capable of withstanding the operating environment of said x-ray tube vacuum vessel. - View Dependent Claims (13, 14, 15, 16, 17)
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18. An x-ray generating device, comprising:
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an x-ray tube vacuum vessel; an x-ray transmissive window assembly comprising a non-toxic, ductile transmissive window having a sufficiently low x-ray attenuation coefficient to efficiently allow transmission of diagnostic x-rays, and that provides sufficient structural support within the operating environment of said x-ray tube vacuum vessel; and an intermediate layer for attenuating x-rays and a transition layer, wherein a vacuum sealed joint is formed between said transmissive window, said intermediate layer, and said transition layer, said vacuum sealed joint capable of withstanding the operating environment of said x-ray tube vacuum vessel, and wherein said transmissive window comprises aluminum. - View Dependent Claims (19, 20, 21, 22)
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30. An x-ray generating device for diagnostic medical imaging, comprising:
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an x-ray tube vacuum vessel; a non-toxic, ductile transmissive window having a sufficiently low x-ray attenuation coefficient to efficiently allow transmission of diagnostic medical x-rays; a transition layer forming a peripheral frame about said window and for attachment to said vacuum vessel to form a first vacuum sealed joint; an intermediate layer forming a peripheral frame about said window and forming a diffusion barrier that prevents the formation of brittle intermetallics between said window and said transition layer at the operating temperatures of said x-ray generating device; and a second vacuum sealed joint formed by explosion welding between said transmissive window, said intermediate layer and said transition layer, said vacuum sealed joint capable of withstanding the operating environment of said x-ray generating device. - View Dependent Claims (31, 32, 33, 34, 35, 36, 37)
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Specification