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the area of structural health monitoring of civil engineering structures on an Australian Research Council Future Fellowship project “Innovative Data Driven Techniques for Structural Condition Monitoring
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-printed structured adsorbents. The envisioned 3D-printed monoliths are engineered to mitigate pressure drops, enhance heat and mass transfer properties, reduce void fractions, and bolster mechanical
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that proposes a new cementation technology that has the potential to massively reduce CO2 emission from construction. By emulating nature’s way of building edifices such as corals, stromatolites, and
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engineering structures may experience impulsive loads during their service life and need to be designed to withstand such impulsive loads since damage or failures of structures would lead to significant
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technique to assess the structural integrity and condition of masonry walls with deteriorated ties. Student type Future Students Faculty Faculty of Science & Engineering Engineering courses Citizenship
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industry engagement component with the industry partner. c) A structured professional development and training program to develop your applied research skills. Project description: Alumina is produced
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control systems and fluid-structure interaction. The students will be supervised by Prof Khac Duc Do and the co-CIs of the project. Student type Future Students Faculty Faculty of Science & Engineering
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Minimum required: Bachelor degree (the first class honours or upper second class honours) in Civil Engineering, Structural Engineering or a related fields. The language requirement (IELTS: Overall 6.5
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the engineering/mathematics field. Eligibility criteria Local and international students Full-time enrolment Strong background in fluid-structure interaction or in systems and control Solid background in
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wishing to study in the engineering field. Eligibility criteria · Local and international students · Full-time enrolment · Strong background in mechanical design and fluid-structure