"Automotive engineering is one of the most technologically interesting . We are seeking a research scientist to perform original research advancing the state of the art in plasma etch technology. Serve society. Ann Arbor, Michigan, United States. Assembly and materials joining: Assembly system design, variation propagation analysis, joint design, joining/welding methods Sheet Metal forming: stamping, hydroforming Engineering statistics: statistical process control and monitoring, robust design, Research Interests: Uncertainty quantification, data-driven modeling, numerical optimization, optimal experimental design, Bayesian analysis, machine learning. Ann Arbor MI 48109 9 /10 infrastructure. New Student Scholarship This scholarship is designed for new students (first-year and transfer) admitted into a CIT major for the 23-24 Academic Year. University of Michigan. 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. G.G. I'm a PhD candidate in Mechanical Engineering and I do research on developing intelligent methods to automate manufacturing via prediction, control and sensing of motion and process dynamics . Applications include miniature robotics, medical devices, and micro-assembly. 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 . MI Hydrogen, a joint venture by the Office of the . Research Interests: Design; smart materials and structures; sensor and actuator design; structural dynamics; vibration and noise control; mechatronics, smart mechanisms. Associate Professor, Mechanical Engineering. It is time to apply for graduate school at U-M Mechanical Engineering. Research Interests: Complex fluids, polymers, fluid mechanics, surfactants, biomolecules, transport theory, rheology, instabilities, constitutive theory. Our campus is home to the worlds most powerful laser, ZEUS, a 32-acre proving ground for driverless technology, a two story earthquake lab, a robot playground and a 18,000 sq. In this SURE project, we explore the design and manufacture of tiny grips, related to some already used in middle ear bone (ossicular) replacement surgery, like Grace Medicals Megerian Nitinol SRP, are contemplated; however our needs are different and a modified approach is indicated. Research Interests: Computational mechanics; finite element methods; structural dynamics; flexible multibody dynamics; dynamic response of composites; vehicle dynamics; engineering mechanics education. (734) 647-3823. Current energy-related projects include thermoelectricity, phonoelectricity, thermal switch, and multidimensional wicks for record conductance and heat flux. SAE Mobilus Includes access to SAE Technical Papers, SAE E-Books, and SAE Standards. Ann Arbor MI 48109 Simulations of spark ignited and advanced autoignition combustion modes using 1D models and 3D CFD including large scale parallel simulations. Such systems will have profound implications in the future development of cell-based therapy. Chemical and physical properties of fuels, alternative fuels, lubricants. Research Interests: My research has two primary aims: (1) to apply engineering design to improve global health equity; and(2) to advance the methods and tools of equitable engineering design. The U-M Department of Mechanical Engineering is located on the University of Michigan's North campus in Ann Arbor, a vibrant mid-sized city known for its sprawling greenery and exposed-brick facades, its array of enticing eateries and historic theaters, and, of course, Michigan Football! Michigan Robotics aims to create a collaborative community of roboticists, where through mutual respect, integrity in action, and transparency in thought, we accelerate socially beneficial advances in robotics. Discussion Instructor for ME 211. 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. A pair of University of Michigan professors, one a developer of surgical technology, the other a leader in design optimization, and a longtime member of the U-M Mechanical Engineering's External Advisory Board were elected as members of the National Academy of Engineeringone of the highest distinctions in the profession. For us, interdisciplinary collaboration comes naturally because it comes first. 10 /10 academic/food. Brown Laboratory Jolie Stepaniak, Henry Ford Community College, prepares a plate in the Lurie Nanofabrication Facility on August 1, 2013. Phone: (734) 764-2694, 2021 The Regents of the University of Michigan, NSF Engineering Research Center for Reconfigurable Manufacturing Systems, GM/U-M Institute of Automotive Research and Education, Office of the Vice President for Communications. Research Professor, Mechanical Engineering Research Professor, Internal Medicine Research Professor, Institute of Gerontology jaam@umich.edu (734) 763-2320 3443 G.G. 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. This project will analyze an example production process and how its success will depend on the availability of suitable policy support. Research Interests: Optimization, modeling, design, and control of robotic systems that interact with humans and the environment. Ultimately, we want to develop synthetic cells that can sense mechanical forces to trigger release of small molecules. Contact modeling based on computed tomography (CT) or 3D scanning images will be developed to design the geometry.Research Mode: In-Lab, ME Project #8: Freeze Casting with Improved Thermal ControlFaculty Mentor: Wenda Tan, wendatan@umich.eduPrerequisites: design, manufacturing, mechatronicsProject Description: Freeze casting is a cost-effective way to fabricate directional porous ceramics materials (https://en.wikipedia.org/wiki/Freeze-casting). Our researchers lead global endeavors that advance our species and planet. My Ohio State Biomedical Engineering Senior . 4901 Evergreen Road. Deni KUSUMA | Cited by 1 | of State University of Malang, Malang (UM) | Read 3 publications | Contact Deni KUSUMA Ann Arbor, MI 48109. Current research topics include the exploration of novel sensing and control techniques for improving the coordination and precision motion control of multiple systems. . Campus Safety. Developing and applying optical measurement techniques to diagnose diseases of the human eye. Research Interests: Robotics, Manufacturing, and Medical device implementation. Research Interests: Elasticity; elastodynamics; fracture mechanics; dislocations; fatigue. Professor Emerita, Theoretical and Applied Mechanics. Research Interests: Mechanical behavior of materials; micromechanical modeling; in situ/in operando characterization including X-ray imaging and diffraction; functional materials; lightweight structural metals; shape memory alloys; phase transformations; energy conversion. Please visit the, Transferring Credit from Another Institution, Summer Undergraduate Research in Engineering, Undergraduate Research Opportunities Program, Office of the Vice President for Communications. When you have one of the world's best medical schools and the hub of a major university medical system literally across the street from a top engineering school, amazing things happen. degree in Mechanical Engineering from the University of Colorado at Boulder in 2001. Research Interests: Nonlinear water-wave dynamics, contact-line dynamics, drag-reduction technologies, and coastal engineering. My work draws upon nonlinear physics, applied mathematics and numerical methods. Design theory and methodology. Design of manufacturing and service systems. Each is unique but they all intersect. You may apply for multiple awards. Research Interests: Mechamatronic system design methodology; smart materials and structures, Research Scientist Emeritus, Mechanical Engineering. University of Michigan, BSE Mechanical Engineering, 2005 University of Michigan, MSE Mechanical Engineering, 2006 . Research Professor, Mechanical Engineering. Research Interests: Microscale heat transfer, especially related to electronic and optoelectronic devices; thermoelectric energy conversion; medical applications of heat transfer. Multi-Disciplined area in mechanical and computer engineering. Research Interests: Estimation and control of internal combustion engines and electrochemical processes such as fuel cells and batteries. 2000 - Heinz Prechter Engineering Complex. -Preparation of Design modifications and new designs for interior modifications for VIP and regular airline aircraft. ME Associate Professor Ashley Bucsek has received the William N. Findley Award, and ME Associate Professor Neil Dasgupta has won the E. & M. Ulsoy Citation Leader Award. The event Kazuhiro Saitou on LinkedIn: UM Mechanical Engineering 3 Minute Thesis (3MT) Competition For polymer composites, we are studying the effect of carbon nanotube and graphene additions to polymer composites utilizing electrical and magnetic fields to produce oriented particles for improved mechanical properties. By simulating how particles exhaled from passengers on a bus would travel through the vehicle under various conditions, researchers at the University of Michigan have been able to develop guidelines for how to operate campus buses more safely during the COVID-19 pandemic. High-performance supercomputers and detailed numerical simulations to study the performance of combustion devices. Examples include creating novel mechano-chemical dynamic models of nanoscale intracellular transport processes, developing the next generation of highly-sensitive diagnosis and monitoring techniques, discovering novel methods for forecasting tipping points in complex systems such as disease epidemics and ecological systems, developing innovative reduced order models of multi-physics systems such as Li-ion batteries and complex structures, creating advanced system identification and control methodologies for smart structures and fluid-structural systems. Research Interests: My research, which focuses on making impactful contributions to the areas of manufacturing and sustainability, considers multiple scales: identifying significant opportunities to cut emissions and/or costs by conducting large scale analyses on processes, factories and material supply chains, and pursuing a rigorous technical analysis in order to capitalize on the opportunities. Pioneering advances in manufacturing processes. GM/U-M Institute of Automotive Research and Education Reliability and productivity. Brown Laboratory Dr. Michael Thouless was selected as the recipient of the 2022 Adhesion Society Award for Excellence for "Exceptional and deep contributions elucidating the mechanics of adhesion.. Research Interests: Developing algorithms and computational frameworks for large-scale ab-initio calculations to understand materials properties; HPC aspects of electronic structure calculations; Electronic structure studies on defects in solids; Multi-scale modeling; Analysis of approximation theories, Research Interests: Haptic interface and robotics. And the challenges we're tackling are too complex for one discipline alone. Previous Events. Research Interests: My research is focused on investigation 2 key areas of manipulating cell behavior for cartilage tissue regeneration: 1) genetic reprogramming of cells; and 2) cell-matrix interactions. I have worked for quite a few years in mathematical biology, biophysics and materials physics. Research Associate Professor, Mechanical Engineering. COLLABORATION. Michigan Engineering. Research Interests: Cavitation enabled therapy, Mechanics of soft and bio-materials, High speed rheometry, 3D bioprinting. ME x90 (290, 390, 490) are individual or group project work where students apply mechanical engineering principles to research, innovation, service or entrepreneurship projects. Specifically we are working on computational fluid dynamics and computational materials modeling for additive manufacturing, welding, casting, powder metallurgy, and electrohydrodynamic printing processes. Control of Hybrid Electric Powertrains. Phone: 313-593-5241. Research Interests: Fluid mechanics, with an emphasis on multiphase flow, cavitation and bubble dynamics, computational fluid dynamics, high-speed flow and shock waves, turbulence and mixing, interfacial instabilities, plasmas, and high-performance computing. This unique experience teaches students to holistically connect all aspects of their UM life including coursework, co-curricular activities, and community to make a lasting difference in the world. 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. In this project, the student will perform a combination of experimental testing and dynamic modeling of devices fabricated by the Microdynamics Laboratory in Mechanical Engineering, to better understand motions that are feasible for these miniature engineered systems.Research Mode: Hybrid, In-Lab, ME Project #2: Oil Wicking Through DendritesFaculty Mentor: Solomon Adera, sadera@umich.eduProject Description: Experimental characterization and modeling of oil wicking through porous ice dendritic network.Research mode: In-Lab, ME Project #3: Sessile Water Droplet EvaporationFaculty Mentor: Solomon Adera (sadera@umich.edu)Project Description: Experimental characterization and modeling of the evaporation of a sessile water droplet residing on micro/nanotextured oil-impregnated surfaces.Research mode: In-Lab, ME Project #4: Engineering Synthetic ExocytosisFaculty Mentor: Allen Liu, allenliu@umich.eduProject Description: Building synthetic cells is an exciting area of synthetic biology with opportunities to unravel basic design and organizational principles of cellular life and for biomedical applications. Research Interests: Marine renewable energy (ocean waves, tidal currents, offshore wind), blue economy, energy harvesting, vibration/dynamics and control, mechatronics design, vehicles and transportation, and advanced manufacturing. Research Interests: Development of computational models for turbulent reacting flows with application to aircraft and scramjet engines, stationary power generation, and synthesis of novel materials. 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. Welcome to the Peripheral Neural Engineering and Urodynamics Lab (pNEURO Lab). Research Interests: Dr. Vermillions interests lie in the application of optimal control and design optimization tools to cutting-edge problems in renewable energy and energy efficiency. Feb. 2011-Jan. 20198 Jahre. 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. 5945 Buhl Building. Research Interests: Optofluidics; Functional Nanomaterials; Bioinspired Active Optical System; Solar Optics Based Active Panel for Energy Harvesting and Storage: Integrated Molecular Detection System. Preferred Education: 4 Year Degree. Michigan BME not only enjoys the facilities and resources of a major research university, but also . Research Interests: Extensional rheometry, uretral peristalsis, LEO Intermittent Lecturer, Mechanical Engineering, Research Interests: Manufacturing; biomedical device design; biomedical manufacturing; computed tomography for inspection; neurovascular devices; precision machining of advanced engineering materials; additive manufacturing; cyber-physical manufacturing systems for assistive technology. ft. cleanroom nanofabrication facility. Phone: 313-593-5241. . New product design. 1221 Beal Ave. Ann Arbor, MI 48109-2102 For general questions, please feel free to contact us at SUREprogram@umich.edu Contact Mary Saah Executive Assistant Office of Student Affairs Applications in energy, environment, aerospace and naval disciplines. Read more Realizing Breakthroughs Engineering Management - with a particular interest in product development. Associate Professor Emeritus, Mechanical Engineering. Research Interests: Polymer-based photonic sensors and photoacoustics, organic and hybrid photovoltaics and photodetectors, flexible transparent conductors, nanophotonics & structural colors, nanomanufacturing technologies and applications. Dr. Walker received his Ph.D. in Aerospace Engineering from the University of . Professor, Biomedical Engineering . 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. Please visit the SROP website to learn more about the research opportunities and how to apply. Research Interests: Heat transfer and fluid mechanics, including fundamentals and manufacturing applications; buoyant and thermocapillary convection; multiphase flows; asymptotic, computational, and experimental methods; alloy solidification theory; laser processing; welding; spray forming; spray coating. Research Interests: Strategic issues related to the restructuring of the North American industry and trends in globalization, technology, market factors, and human resource requirements. Visit the RISE page for more information. All schools and colleges at U-M actively participate in UROP, so your research possibilities span the breadth of the entire university. G.G. Research Interests: Fluid mechanics with emphasis on turbulence physics, turbulence modeling and turbulence control; high fidelity computations and reduced-order modeling of complex turbulent flows involving multi phases, fluid-structure interactions and viscoelastic effects; biomimetic and bio-inspired concepts for flow control and drag reduction; lattice Boltzmann, pseudo-spectral and stochastic methods; high performance computing. 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. 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. In this project, we plan to design and prototype a freeze casting system to enable improved control of thermal conditions. Basic knowledge in chemistry and molecular biology is a plus.Research Mode: In-Lab, ME Project #5: Design and Testing Optimization of a Salt Hydrate ReactorFaculty Mentor: Bala Chandran, Rohini, rbchan@umich.eduPrerequisites: Thermo-dynamics, Introduction to ProgrammingDesirable Pre-requisites: Intro to Heat Transfer, SolidWorks/CAD, MATLAB, COMSOL, Arduino, Desire to do hands-on experimentsProject Description: Salt hydrates offer the ability to store thermal energy to enable deeper penetration of renewables. Research Interests: Battery Modeling, Control and State of Health Estimation. The program aims to provide students with an opportunity to assess their interests and potential in pursuing research at the graduate level. Course Duration. Research Interests: Sustainable and renewable energy, power and propulsion systems; combustion, fluid mechanics and thermodynamics; pollution mitigation; high-efficiency, low-resource consumption energy systems; reaction kinetics; aerosol formation, transport and impact; optical diagnostics; gas dynamics. College Level REU Program: Our efforts have generated tremendous interest in the research Experience for Undergraduates program. Wei Lu Research Group. Library Webpages 2023 Research Projects. Barton continued her education in mechanical engineering at the University of Illinois at Urbana-Champaign and completed her M.S. Conduct searches by state, job title, and many other methods. . Research Interests: Environmental and sustainable technology systems; life cycle product design optimization; pollution prevention technologies for manufacturing; metalworking fluid formulation and performance; membrane filtration; supercritical fluid delivery of lubricants; biological detection and control in aqueous systems; technology policy analysis. Product development. Research Interests: Thermal and fluid sciences, multiscale computational model development, radiative heat transfer, optics, chemical kinetics of heterogeneous reactions, electrochemical engineering, semiconductor physics, OVPR Collegiate Research Professor, Mechanical Engineering. 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 Product quality. Applications include drug transport, bacterial biofilms control, combustion, ultra-soft materials, and low temperature plasma. By absorbing and releasing water vapor from the air, salt hydrates can shift building heating and cooling loads. We share a campus with leaders in business, medical and liberal arts, whose expertise elevates our engineering research. Research Interests: Manufacturing systems engineering. B.Tech Mechanical Engineering . Applications of controls to manufacturing systems. Research Interests: Process-structure-property relationships of advanced materials; metal additive manufacturing; in-situ property evaluation; experimental and computational mechanics; materials discovery; design and manufacturing. Research Interests: Stem Cell Bioengineering, Developmental Bioengineering, Mechanobiology, and BioMEMS, Research Investigator, Mechanical Engineering. BLUELab, Multidisciplinary Design Program, International Programs or the College of Engineering Honors Program). G.G. Research Professor, Mechanical Engineering Research Professor, Internal Medicine Research Professor, Institute of Gerontology. Products design for flexible manufacturing systems. Developed an advanced cleanroom process for . Research Interests: Solid mechanics including thermoelasticity; elasticity; solidification; contact mechanics; tribology; elastodynamics, fracture; stability of thermoelastic contact; friction, contact of rough surfaces. The University of Michigan will lead a suite of projects involving multiple institutions to boost understanding of solid-state EV power cells. Interaction with engineering and medical school faculty are planned.Research Mode: In-Lab, G.G. Research Interests: Applications: Energy storage (e.g., hydrogen, thermal, natural gas), battery (e.g., electrolytes, manufacturing); Materials: Nanoporous materials (e.g., metal organic frameworks, covalent organic frameworks), metal oxides, metal hydrides, energetic materials, small molecules, nanoporous composites; Methods: Applied machine learning & AI, Ab initio & density functional theory (DFT), Monte Carlo & molecular dynamics, high-throughput computing, materials by design; Developments: Methods for interpretable machine learning, algorithm for predicting thermophysical properties of chemical compounds. Research Interests: Front-end design processes; idea generation; engineering creativity and divergent thinking; design cognition; socially-engaged design; socio-technical engineering skillsets; design ethnography; design problem finding and framing; design prototyping; design education, Research Interests: Renewable energy and energy storage; Batteries; Solar Energy; Catalysis; Nanomanufacturing; Atomic layer deposition; Bio-inspired materials; High-resolution microscopy and spectroscopy of nanomaterials; In situ/operando electrochemistry; Energy policy and economics. The short list of our greatest strengths includes computing, energy and sustainability, manufacturing, precision medicine, robotics, security and space. NSF Engineering Research Center for Reconfigurable Manufacturing Systems . SM Wu Research Center Folding and adaptable structures based on the principles of origami can have practical applications ranging in scale and discipline from biomedical robotics to deployable architecture. 26.95L. 10 /10 placement. The Summer Undergraduate Research in Engineering program is an opportunity for University of Michigan engineering students who have completed their junior year to participate in research activities with faculty in the College of Engineering at Michigan. Although promising, current salt hydrate reactors tend to be demonstrations and suffer from a lack of design optimization. -Carry out liaison engineering tasks for Aircraft under modification. Find your fit and pursue your passion. 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. Prof. Kira Barton (bartonkl@umich.edu) received her B.S. Developing innovative systems to build high-quality, high-performance products.
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umich mechanical engineering research