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By absorbing and releasing water vapor from the air, salt hydrates can shift building heating and cooling loads. Research Interests: Research and development in the field of biomedical ultrasound; understanding of the processes and mechanism involved in ultrasound interaction with biological systems for the purpose of developing efficient techniques for diagnosis and treatment of human diseases; ultrasound mediated drug and gene delivery for cancer treatment and gene therapy, high intensity focus ultrasound ablation of cardiac arrhythmias such as atrial fibrillation, as well as quantitative ultrasound imaging for improved pancreatic cancer detection. He is particularly interested in the development of tethered systems for harnessing wind and marine hydrokinetic energy, the development of persistent mission planning algorithms for renewably powered robotic networks, and the use of connected and autonomous vehicles to realize substantial fuel economy improvements over conventional vehicles. Research Interests: The research focuses on lightweight materials, with emphasis on developing micro- and nanocellulose composites, natural fiber composites and associated manufacturing processes for automotive and aerospace applications, multi-scale modeling of materials and simulation of forming processes, manufacturing of personalized dental ligaplants. Create smart machines. Research Interests: Thermal sciences, power systems, cryogenics, boiling heat transfer, superconducting power transmission. Research Interests: Multiscale simulations of complex systems, nanoparticle growth and self-assembly, nanoparticle interactions with biomolecular systems, applied chemical kinetics, aerosols. Find your fit and pursue your passion. Applications include drug transport, bacterial biofilms control, combustion, ultra-soft materials, and low temperature plasma. These results will help create a design guide to inform future efforts in salt hydrate reactors.Research Mode: In-Lab, ME Project # 6: Life Cycle Assessments and Policies: Why It Matters for Hydrogen and Other FuelsFaculty Mentor: Volker Sick, vsick@umich.eduProject Description: The need for and interest in the production of hydrogen as well as fuels from carbon dioxide is increasing rapidly. SROP is supported by the Committee on Institutional Cooperation, a consortium of the Big Ten member universities and the University of Chicago. Jolie Stepaniak, Henry Ford Community College, prepares a plate in the Lurie Nanofabrication Facility on August 1, 2013. The short list of our greatest strengths includes computing, energy and sustainability, manufacturing, precision medicine, robotics, security and space. Undergraduate students have the opportunity to work alongside world-renowned faculty in state-of-the -art facilities on real-world projects that impact our society and future. The program aims to provide students with an opportunity to assess their interests and potential in pursuing research at the graduate level. EngineerJobs.com; Engineering job source providing fast loading and easily accessible listings from across the United States. Access the standard (s) you need based on the issuing agency: DEPTH. Contact: (734) 647-0197, mipse-central@umich.edu. Michigan Engineering. Our theoretical and experimental investigations are aimed at reducing the incidence of unintentional injuries in the population. Michigan Engineering. Projects include incremental forming of sheet metal and nano-particle additions to aluminum alloys. Research Areas: Diversity, Equity and Inclusion; Students and practitioners; Design and creativity Website srdaly@umich.edu Mark Guzdial Professor, CSE Professor, Education Ann Arbor, Michigan, United States. Feb. 2011-Jan. 20198 Jahre. Ann Arbor MI 48109 The variation of porous microstructure along the freeze direction introduces directional inconsistency to the final products, which is a great challenge for the freeze casting process. Office Phone: (734) 936-0406 FAX: (734) 615-6647 Brief Biography I graduated in Mechanical Sciences from the University of Cambridge in 1963 and joined British Rail, who later sponsored my research at Cambridge between 1965 and 1968 on the subject of thermal effects in braking systems. My Ohio State Biomedical Engineering Senior . Developing innovative systems to build high-quality, high-performance products. Most awards will have multiple recipients. The current paradigm in the construction of a bottom-up synthetic cell system involves the creation of more sophisticated cell-like systems based on current understanding of cellular designs. Current energy-related projects include thermoelectricity, phonoelectricity, thermal switch, and multidimensional wicks for record conductance and heat flux. Dr. Tim Bruns is is the Principal Investigator and is a newly tenured Associate Professor in the Department of Biomedical Engineering.The lab is part of the Biointerfaces Institute at the North Campus Research Complex.Our lab collaborates with and participates in journal club meetings with other labs in the . There is growing interest around wider adoption of hydrogen and its potential economic and environmental benefits, and so the University of Michigan has launched a new initiative to support and catalyze multidisciplinary research involving the universe's lightest and most abundant element. Mechanical Engineering. 2000 - Heinz Prechter Engineering Complex. Research Interests: Elasticity; elastodynamics; fracture mechanics; dislocations; fatigue. Research Interests: Polymer-based photonic sensors and photoacoustics, organic and hybrid photovoltaics and photodetectors, flexible transparent conductors, nanophotonics & structural colors, nanomanufacturing technologies and applications. It is possible that they will reach out to you directly for further information. The Regents of the University of Michigan Ann Arbor, MI 48109 USA, Privacy Policy | Research Interests: Optofluidics; Functional Nanomaterials; Bioinspired Active Optical System; Solar Optics Based Active Panel for Energy Harvesting and Storage: Integrated Molecular Detection System. Impact of fuel properties and kinetics on engine efficiency and emissions. Mechanical Design and Electrical Packaging for Server Racks and Power Distribution Systems: Common Platform Power Box . Mechanical Engineering 2023 SURE Research Projects - SURE SURE > Mechanical Engineering 2023 SURE Research Projects Contact Mary Saah Executive Assistant Office of Student Affairs maryms@umich.edu (734) 647-7118 143 Chrysler Center Mechanical Engineering 2023 SURE Research Projects ME Project #1: Dynamics of Piezoelectric Microsystems Research Interests: Combustion and turbulence modeling; engine combustion; pollutant formation; thermodynamic properties; diesel engine combustion; natural gas operation of diesels; compressible turbulence models; metal hydride heat pumps and hydrogen storage; refrigerant properties. 10 /10 faculty. We are interested in creating a synthetic cell that can secrete contents upon a stimulus. Campus Safety. Research Interests: Combustion, focusing primarily on automotive engines. Skilled in Advanced Product Quality Planning (APQP), Continuous Improvement, Team Building . Research Interests: Optimization, modeling, design, and control of robotic systems that interact with humans and the environment. Research Interests: Internal combustion engines, emissions. Tim Manganello/BorgWarner Department Chair, Mechanical Engineering. 26.95L. Professor, Mechanical Engineering, Director of Bioengineering Program aargento@umich.edu 313-593-5029 Adnan Aswad Professor Emeritus, Industrial and Manufacturing Systems Engineering aswad@umich.edu 313-593-5361 Selim Awad Professor, Electrical and Computer Engineering sawad@umich.edu 313-593-5523 Georges Ayoub The University of Michigan Department of Mechanical Engineering, 1231 Beal Avenue, 2007 W. E. Lay Automotive Laboratory, Ann Arbor, MI 48109-2133 Email: vsick@umich.edu Barton continued her education in mechanical engineering at the University of Illinois at Urbana-Champaign and completed her M.S. 1241 East Catherine Street. Brown Laboratory Research Interests: Micromechanics modeling of materials; interfacial fracture mechanics and adhesion; mechanical properties of thin films and coatings; toughening mechanisms in polymers; mechanical properties of structural adhesives. It is time to apply for graduate school at U-M Mechanical Engineering. Students will have an opportunity to advance their academic and research skills by working one-on-one with a faculty mentor. Research Interests: Fluid mechanics with emphasis on experimental methods, multiphase flows, high Reynolds number flows, cavitation and bubbly flows, optical flow measurement methods, electrical and radiation based tomography. We share a campus with leaders in business, medical and liberal arts, whose expertise elevates our engineering research. Research Professor, Mechanical Engineering Research Professor, Internal Medicine Research Professor, Institute of Gerontology jaam@umich.edu (734) 763-2320 3443 G.G. Research - Michigan Engineering The nation's #1 public university For us, interdisciplinary collaboration comes naturally because it comes first. -Preparation of Design modifications and new designs for interior modifications for VIP and regular airline aircraft. Resolvin E1 (RvE1), a lipid derived from Omega-3 fatty acids, is a pro-repair molecule that promotes healing of intestinal wounds according to a recent study published in PNAS as a collaborative project between The Department of Pathology at University of Michigan Medical School and the George W. Woodruff School of Mechanical Engineering and the Petit Institute for Bioengineering and . Dearborn, MI 48128. University of Michigan School of Medicine 1241 East Catherine Street Ann Arbor, MI 48109 . The successful candidate will be part of an exploratory research team on patterning for leading-edge devices and systems, participate alongside a global team of . The University of Michigan is the best public school in the state and offers one of the best mechanical engineering programs in the country as a public school. Applications include miniature robotics, medical devices, and micro-assembly. Research Interests: Cavitation enabled therapy, Mechanics of soft and bio-materials, High speed rheometry, 3D bioprinting. Mechanical Engineering Dr. Daly studies student and practitioner front-end design approaches and the integration of these more comprehensive skillsets into engineering. Students can participate in a RISE project a) individually with an ME professor, b) as a member of a larger multi-disciplinary project, or c) through their co-curricular experiences across the University (e.g. Thats just the start of why our Centers and Institutes are a hub of academic and corporate innovation. Preferred Education: 4 Year Degree. D. in Mechanical Engineering from MIT. Some of the opportunities require students to initiate the conversation with the faculty they would like to complete research with, while other programs match interested students with participating faculty. We have already begun this redesign phase, creating CAD drawings and ideation of the design, and look to continue this process. Reliability and productivity. The Summer Research Opportunities Program is a gateway to graduate education. View on Map. The project works closely with the University of Michigan Orthotics and Prosthetics Center (UMOPC) with the goal to develop design and manufacturing methodologies for a new service system for rapid turn-around and high-quality 3D-printing of assistive devices that will have personalized fit and comfort. Research assistant at University of Michigan. SAE Mobilus Includes access to SAE Technical Papers, SAE E-Books, and SAE Standards. Research Interests: Mechanical behavior of materials including polymers, elastomers and soft tissue; tissue engineering of tendon and muscle constructs; constitutive modeling of growth, remodeling and functional adaptation in soft tissue; deformation mechanisms in polymers; crystal transformation mechanisms in semi-crystalline polymers; split Hopkinson pressure bar testing of polymers and elastomers for high strain rate applications including crashworthiness in automotive applications. All participants must apply online through the SURE website. -Assignment at Engine Services for the migration of Engine tool data into the SAP . Classes are available in the Fall (September-December), Winter (January-April), Summer I (May-June) and Summer II (July-August) terms. COLLABORATION. Research Interests: Autonomous and semi-autonomous vehicles; human-autonomy interactions, Research Interests: Experimental mechanics of soft and bio-materials, material characterization including high speed rheometry, magnetic resonance, and inverse techniques, inertial cavitation dynamics, photoacoustic and laser microscopy, cell mechanics, image processing techniques, digital image and volume correlation, Research Interests: Defects behaviors and microstructural evolution in structure materials, deformation mechanisms and mechanical properties of amorphous solids, long time scale atomistic simulation, Research Interests: Robotic Manipulation, Physical Interaction and Contact, Robot Learning and Control, State-Estimation. jaam@umich.edu (734) 763-2320 . ME professor named Faculty Director at the Center for Entrepreneurship, ME professor receives Adhesion Society Award for Excellence, New NAE members developed low-cost surgical device and transformational approach to design, Office of the Vice President for Communications. Research Interests: Nano mechanics, electron microscopy, laser processed metallic alloys, metallic thin films, Research Interests: Dynamics of terrestrial locomotion, arrhythmic and transient locomotion, bio-inspired design, bio-inspired robotics, soft robotics, animal-robot interaction. Research Interests: Dynamical systems, smart materials, metamaterials, phononic crystals, electromechanical systems, energy harvesting, mechanical vibrations, wave propagation, Research Interests: Fluid mechanics, reduced-complexity modeling, data-driven modeling, flow control, aeroacoustics. Research Interests: Neurobiology of memory and learning, emphasis on spatial learning and aging-driven decline; Behavioral neurogenetics and neuronal basis of behavior; Development of controlled, engineered microenvironments to interrogate the nervous system; Mathematical models of neuronal networks; Locomotion dynamics; Customized 3D printing of hydrogels; Technology (3D printing, microfluidics, nanoparticles) and engineering (image processing, computer vision, data analytics) coupled with neurobiology; Multi-scale dynamics of biological systems, emphasis on neurons and neuronal circuits; Neuronal physiology and calcium dynamics; Cell physiology, signal transduction and stress; Arts/Science integration.