Abstract: A system and method for monitoring and controlling build quality during electron beam manufacturing of a build part. The system may include at least one electron beam source to direct at least one electron beam onto a plurality of deposited layers of metallic powder to form a melt pool, a detector to detect in real-time backscattered energy ejected from the melt pool and indicative of a defect in the build part and generate a detection signal representative of the defect. A controller receives and analyzes the detection signal and generates a corrective signal for control of at least one of the actuator and the at least one electron beam source to direct the at least one electron beam onto the plurality of deposited layers of metallic powder to sequentially consolidate patterned portions of the plurality of deposited metallic powder layers to adaptively form the three-dimensional build part.

Abstract: An additive manufacturing system includes a cabinet, an electron beam system, at least one imaging device, and a computing device. The cabinet is configured to enclose a component and defines a pinhole extending therethrough. The electron beam system is configured to generate an electron beam directed toward the component. Interactions between the component and the electron beam generate x-ray radiation. The at least one imaging device is configured to detect the x-ray radiation through the pinhole. The computing device is configured to image the component based on the x-ray radiation detected by the at least one imaging device.

Abstract: An additive manufacturing system includes a cabinet, an electron beam system, at least one imaging device, and a computing device. The cabinet is configured to enclose a component and defines a pinhole extending therethrough. The electron beam system is configured to generate an electron beam directed toward the component. Interactions between the component and the electron beam generate x-ray radiation. The at least one imaging device is configured to detect the x-ray radiation through the pinhole. The computing device is configured to image the component based on the x-ray radiation detected by the at least one imaging device.

Abstract: A system and method for monitoring and controlling build quality during electron beam manufacturing of a build part. The system may include at least one electron beam source to direct at least one electron beam onto a plurality of deposited layers of metallic powder to form a melt pool, a detector to detect in real-time backscattered energy ejected from the melt pool and indicative of a defect in the build part and generate a detection signal representative of the defect. A controller receives and analyzes the detection signal and generates a corrective signal for control of at least one of the actuator and the at least one electron beam source to direct the at least one electron beam onto the plurality of deposited layers of metallic powder to sequentially consolidate patterned portions of the plurality of deposited metallic powder layers to adaptively form the three-dimensional build part.