Patent Number: 039708551
Section: claims

1. A positron-emitting probe for use in testing samples of metals for defects by positron annihilation techniques comprising: a substrate made from the same material as the test sample;  positron-emitting material supported by one surface of said substrate; and  a cover for said material, said cover being sealed to said substrate to keep said material in place, said cover being of such thinness and density as to provide a window through which positron passage is uninhibited.  a grounded support having a central hollow therein, the substrate-cover structure being located in said hollow and sealed hermetically at its edges to said support;  an electrical insulator located within said hollow and being hermetically sealed at its edges to said support, the insulator being spaced from said substrate and forming a hermetically sealed space therebetween, said space being evacuated; and  an electrode for connection to a source of electrical potential, said electrode extending into said hermetically sealed space so that an electric field is produced between the electrode and the substrate upon application of an electrical potential difference between said electrode and said substrate.  a support having a central hollow therein, the substrate-cover structure being located in said hollow and sealed hermetically at its edges to said support; and  a magnet, one pole of which extends into said hollow and is spaced from said substrate, said magnet being hermetically sealed to said support wherein a space is formed within said hollow bounded by said magnet, said support and said substrate, said space being evacuated.  a sheet of scintillator material said sheet being placed in contact with said cover and extending beyond the substrate-cover structure; and  at least one photon detector located on the contacting surface of said scintillator sheet beyond said substrate-cover structure.  a substrate made of the same material as that to be tested but in the unfatigued condition, said substrate being of such thickness as to absorb all those positrons that enter it;  positron-emitting material supported by one surface of said substrate; and  a cover for said material, said cover being sealed to said substrate to keep said material in place, said cover being of such thinness and density as to provide a window through which positron passage is uninhibited,  said probe to be used with a set of reference fatigue samples of the same material as that to be tested, each having a different but known amount of fatigue damage.  an electrically conductive thin substrate;  positron-emitting material supported by one side of said substrate;  a thin window covering said positron-emitting material,  a grounded support having a central hollow therein, the substrate-cover structure being located in said hollow and sealed hermetically at its edges to said support;  an electrical insulator located within said hollow and being hermetically sealed at its edges to said support, the insulator being spaced from said substrate and forming a hermetically sealed space therebetween, said space being evacuated; and  an electrode for connection to a source of electrical potential, said electrode extending into said hermetically sealed space so that an electric field is produced between the electrode and the substrate upon application of an electrical potential difference between said electrode and said substrate;  said probe to be used with a set of reference fatigue samples of the same material as that being tested, each having a different but known amount of fatigue damage.  a nonmagnetic substrate;  positron-emitting material supported by one side of said substrate;  a nonmagnetic thin window covering said positron-emitting material, said window being of such thinness and density as to not significantly impede the passage of positrons;  a support having a central hollow therein, the substrate-cover structure being located in said hollow and sealed hermetically at its edges to said support; and  a magnet, one pole of which extends into said hollow and is spaced from said substrate, said magnet being hermetically sealed to said support wherein a space is formed within said hollow bounded by said magnet, said support and said substrate, said space being evacuated,  said probe to be used with a set of reference fatigue samples of the same material as that being tested, each having a different but known amount of fatigue damage.  a gamma-ray-attenuating substrate;  positron-emitting material supported by one side of said substrate;  a thin sheet of scintillator material covering said positron-emitting material, said sheet extending beyond the substrate structure; and  at least one photon detector located on the surface of said scintillator sheet,  said probe to be used with a set of reference fatigue samples of the same material as that being tested, each having a different but known amount of fatigue damage. 2. A probe as in claim 1, wherein said cover and substrate are electrically conductive, said probe further including: 3. A probe as in claim 1, further including: 4. A probe as in claim 1, further including: 5. A probe as in claim 4, wherein said substrate is sufficiently thick to prevent passage of positrons through the substrate. 6. A positron-emitting probe designated as the "unfatigued substrate positron probe" for use in testing metal samples or objects for fatigue by positron lifetime techniques comprising: 7. A positron-emitting probe designated as the "electric-field positron probe" for use in testing metal samples or objects for fatigue by positron lifetime techniques comprising: 8. A positron-emitting probe designated as the "magnetic-field positron probe" for use in testing metal samples or objects for fatigue by positron lifetime techniques comprising: 9. A positron-emitting probe designated as the "thin-scintillator positron probe" for use in testing metal samples or objects for fatigue by positron lifetime techniques comprising: