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multiple stage metal hydride compressors, prototypes, system integration, next generation metal hydride materials, heat transfer media and novel hydrogen extraction methods. The role-holder will work in a
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multiple stage metal hydride compressors, prototypes, system integration, next generation metal hydride materials, heat transfer media and novel hydrogen extraction methods. The role-holder will work in a
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metallic components (ferrous and non ferrous). Job Requirements: PhD (or Engineer with minimum 2 years of experience) in materials/mechanical engineering, in the field of solid state material recycling
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topology optimization, generative design, and bioinspired design, SC3DP creates optimized products using a variety of novel materials and printing processes, including hybrid printing, post-processing, and
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materials integration, nano-enabled coatings and multifunctional composites. The main duties foreseen are: Design, synthesis and optimization of Cu-Metal-Carbon interfaces in copper based nanocomposites
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two publications in SCI top-tier journals in relevant fields. Possess research experience in porous metal high-damping materials and disordered elastic metal interpenetrating phase composites, with over
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component’s lifecycle. What We’re Looking For Expertise in meso-scale metallic materials modelling (esp. crystal plasticity) Familiarity with synchrotron diffraction & high-res EBSD for collaboration with key
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nanomaterials. This will be achieved by developing and codifying DES-based routes to key classes of environmentally relevant nanomaterials, including (photo)electrocatalytic metal oxides; phosphate-based
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energy-related systems such as lithium-ion and lithium-metal batteries. Familiarity with high-throughput simulation workflows and materials discovery pipelines. Demonstrated ability to design and fabricate
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to the Singapore Centre for 3D Printing (e.g. competitions, conferences and hosting visits) Requirements: Ph.D. in the area of Industrial, Mechanical, and Materials Engineering Engineering Design and Optimization