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Field
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infrastructure systems with interest in applications of new and emerging technologies. Particular areas of interest include: structural 3D printing (metals, concrete, and composites) computational mechanics and
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setups and develop methods for in-situ diagnostic and monitoring additive manufacturing (AM) processes toward the 3D printing of metal alloys and ceramics. The successful candidate will use optical and
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precision micromachining and 3D printing. Experimentally characterize cavitation dynamics, including mechanical, thermal, and chemical effects associated with bubble collapse. Contribute to the development
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morphing-wing UAV prototypes. Methodology: Design and Simulation: ABAQUS, SolidWorks, ANSYS, or COMSOL for topology optimization and aerodynamic modeling. Fabrication: Composite layup, 3D printing (FDM/SLA
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to have direct impact on patient care and clinical trials. Our program leverages 3D printing (primarily semi-solid extrusion) as the mechanism for reformulating existing pharmaceuticals - both active
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the nacre in seashells, by combining them with soft organic polymers. This project proposes a method to mimic this by using 3D-printed concrete as a scaffold to guide the growth of a chitinous fungal network
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candidate will undertake research at the interface of biomaterials engineering, regenerative medicine, advanced 3D printing and mechanobiology, under the supervision of Professor Hala Zreiqat. This hands
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to 3D printing partners. 4. Bibliographic and patent analysis. 5. Coordination of project activities jointly with the Partners. 6. Drafting of deliverables and Project Milestones. 7. Monitoring
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. Knowledge of statistics applied in the Pharmaceutical Industry. Formation in 3D printed medicines & bioprinting. At least 10 publications indexed in JCI (minimum 8 in Q1) related to the field
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the research and development of a robotic concrete 3D printing system and other tasks that are assigned to you. Core Responsibilities: Perform the research and development of robotic concrete 3D printing systems