Abstract: A removable automobile molding has been developed that is an extruded plastic assembly, which attaches to the sides or fronts of the vehicle using a flexible magnetic film and can protect any surface of the automobile from dents or scratches. The flexible-plastic, guard assemblies are sized for each vehicle to allow car doors to be opened or closed with the assemblies attached and can be left on the vehicle either temporarily or permanently. Theft of the extruded plastic assemblies is prevented due to the use of spring-loaded clips attached to the extruded plastic assembly, which attach to the edges of the door and cannot be removed unless the door is open. For some vehicles the theft protection assembly may not be required or cannot be attached to the vehicle.

Abstract: A removable automobile molding has been developed that is an extruded plastic assembly, which attaches to the sides or fronts of the vehicle using a flexible magnetic film and can protect any surface of the automobile from dents or scratches. The flexible-plastic, guard assemblies are sized for each vehicle to allow car doors to be opened or closed with the assemblies attached and can be left on the vehicle either temporarily or permanently. Theft of the extruded plastic assemblies is prevented due to the use of spring-loaded clips attached to the extruded plastic assembly, which attach to the edges of the door and cannot be removed unless the door is open. For some vehicles the theft protection assembly may not be required or cannot be attached to the vehicle.

Abstract: Non-destructive testing apparatus may comprise a photon source and a source material that emits positrons in response to bombardment of the source material with photons. The source material is positionable adjacent the photon source and a specimen so that when the source material is positioned adjacent the photon source it is exposed to photons produced thereby. When the source material is positioned adjacent the specimen, the specimen is exposed to at least some of the positrons emitted by the source material. A detector system positioned adjacent the specimen detects annihilation gamma rays emitted by the specimen. Another embodiment comprises a neutron source and a source material that emits positrons in response to neutron bombardment.

Abstract: Non-destructive testing apparatus may comprise a photon source and a source material that emits positrons in response to bombardment of the source material with photons. The source material is positionable adjacent the photon source and a specimen so that when the source material is positioned adjacent the photon source it is exposed to photons produced thereby. When the source material is positioned adjacent the specimen, the specimen is exposed to at least some of the positrons emitted by the source material. A detector system positioned adjacent the specimen detects annihilation gamma rays emitted by the specimen. Another embodiment comprises a neutron source and a source material that emits positrons in response to neutron bombardment.

Abstract: A method for evaluating a material specimen comprises: Mounting a neutron source and a detector adjacent the material specimen; bombarding the material specimen with neutrons from the neutron source to create prompt gamma rays within the material specimen, some of the prompt gamma rays being emitted from the material specimen, some of the prompt gamma rays resulting in the formation of positrons within the material specimen by pair production; collecting positron annihilation data by detecting with the detector at least one emitted annihilation gamma ray resulting from the annihilation of a positron; storing the positron annihilation data on a data storage system for later retrieval and processing; and continuing to collect and store positron annihilation data, the continued collected and stored positron annihilation data being indicative of an accumulation of lattice damage over time.