Serve society. Interaction with engineering and medical school faculty are planned.Research Mode: In-Lab, G.G. Professor, Biomedical Engineering . We are seeking a research scientist to perform original research advancing the state of the art in plasma etch technology. Candidates with interests in biology and hands-on lab work are highly desirable. View on Map. Research Interests: Heat power, thermodynamics, experiential learning. Driving new performance and operation technologies for ground vehicles. 2350 Hayward 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. 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: Lecturer with a focus in teaching dynamics and controls. Skilled in Advanced Product Quality Planning (APQP), Continuous Improvement, Team Building . Conduct searches by state, job title, and many other methods. Ann Arbor MI 48109 These bones are responsible for transmitting sound from the outer ear to the fluid-filled cochlea which then sends signals to the brain. Research Interests: Control theory and engineering strategies in social systems to empower people and improve their well-being. Students may engage in the RISE program for one or several terms throughout their academic career. G.G. Research Interests: Computational mechanics including mechanics of composite materials, structural design optimization, analysis of material processing; development of computational methods for composite mechanics using the homogenization method; topology and shape optimization of elastic structures; development of adaptive remesh methods for simulation of metal forming processes. 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). Find your fit and pursue your passion. KLA. Our faculty and students go after mechanical engineerings toughest challenges, and what they find influences science and changes lives. Research Interests: I am a computational scientist focusing on the development of scientific machine learning and methods for data-driven computational science. We need to teach that in required engineering coursework, threaded throughout the academic experience, as a practical means of addressing or preventing social problems that materially affect the field and society at large., ALEC D. GALLIMORE, ROBERT J. VLASIC DEAN OF ENGINEERINGIts Time for Engineering to Be Equity-Centered, Insider Higher Ed. Research Interests: Accelerating deployments of CO2-utilization technologies that will innovate existing infrastructure and manufacturing processes, thereby finding sustainable solutions to help address the climate crisis. 26.95L. 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. New ME Faculty Positions . Research Interests: Polymer-based photonic sensors and photoacoustics, organic and hybrid photovoltaics and photodetectors, flexible transparent conductors, nanophotonics & structural colors, nanomanufacturing technologies and applications. Michigan Mechanical Engineering is home to four fully-funded, world-class centers. 3D printing software invented in ME lab and developed by Ulendo is able to print faster without sacrificing quality. We have a project to build ultra miniature and lightweight (less than 10 milligrams lighter than a rice grain) accelerometers that fit on the middle ear bones to enhance the safety, usability, and comfort of auditory prostheses.. Our work in fabricating the accelerometers is progressing with benchtop and human testing underway, but we need a robust way to hold the accelerometer and attach it to the middle ear bones. 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. This is akin to how natural platelets and macrophages secrete enzymes when they become stimulated. Research Interests: Fluid mechanics, including computational fluid dynamics, heat pumps, thermoelectrics, computer modeling. 4901 Evergreen Road. Ann Arbor MI 48109 Brown 2350 Hayward Street Ann Arbor, MI 48109-2125 Research Profile Biomechanics Research Laboratory Page NSF Engineering Research Center for Reconfigurable Manufacturing Systems . G.G. Mechanical Engineering Dr. Daly studies student and practitioner front-end design approaches and the integration of these more comprehensive skillsets into engineering. The influence of production system approaches across industries. SURE offers summer research internships to outstanding current U-M undergraduate students who have completed their sophomore or junior year (preference will be given to those who have completed three years of study) by the time of their internship. We have renowned research centers in both aircraft and spacecraft systems, a rich curriculum in some of the newest aerospace topics, and an esteemed faculty at the forefront of academics and research. Tim Manganello/BorgWarner Department Chair, Mechanical Engineering. New product design. Computational optimal synthesis of structural assemblies. We have already begun this redesign phase, creating CAD drawings and ideation of the design, and look to continue this process. With incomparable facilities, a great location and long-standing relationships with industry, were uniquely positioned to do research that cant be done anywhere else. Research Interests: Computational mechanics; finite element methods; structural dynamics; flexible multibody dynamics; dynamic response of composites; vehicle dynamics; engineering mechanics education. Good engineering department and faculty as well as good research groups. (734) 647-3823. 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. Current energy-related projects include thermoelectricity, phonoelectricity, thermal switch, and multidimensional wicks for record conductance and heat flux. Explore BME Research. Students who qualify are eligible for up to $500/semester (Fall/Winter) or a laptop. Learn more: 28 Feb 2023 22:17:30 9 /10 infrastructure. Any notification of an offer will be sent from the SUREManager. Product quality. High-performance supercomputers and detailed numerical simulations to study the performance of combustion devices. All schools and colleges at U-M actively participate in UROP, so your research possibilities span the breadth of the entire university. 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. While primarily for first and second year students, there are a small number of opportunities for juniors and seniors. Phone: 313-593-5241. Non-Discrimination Policy | Research Interests: Robotics, Manufacturing, and Medical device implementation. Research Interests: Biomedical design and manufacturing; Digital health; Wearable technology; Intelligent systems; Robotics, Research Interests: Biosensors, Biomedical Microelectromechanical Systems (BioMEMS), Optofluidics, Lab on a Chip, Research Interests: Electrochemistry, grid energy storage, CO2 capture, organic batteries, desalination, solid-state batteries. 2000 - Heinz Prechter Engineering Complex. Research Interests: Heat Transfer Physics: efficient and innovative energy transport and conversion (transformation) through atomic tailoring of the principal energy carriers (phonon, electron, fluid particle, and photon). University of Michigan, BSE Mechanical Engineering, 1998 . 9 /10 accomodation. As the freezing front moves away from the cold plate, the temperature gradient and cooling rate at the freezing front are reduced, causing the porous microstructure to gradually change. I will have a data . Applications to nonlinear dynamics of elastic cables, nonlinear fluid-structure interaction, DNA supercoiling, sports engineering, MEMS inertial sensor applications, vehicle systems, axially moving materials. Research Interests: Nanoparticle formations and interactions using computational tools (Molecular Dynamics, Machine Learning, Stochastic Solvers), with particular emphasis on biological systems, non-thermal plasma and reactive gas-phase conditions. 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. 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. ME x90 (290, 390, 490) are individual or group project work where students apply mechanical engineering principles to research, innovation, service or entrepreneurship projects. Research Interests: Solid mechanics including thermoelasticity; elasticity; solidification; contact mechanics; tribology; elastodynamics, fracture; stability of thermoelastic contact; friction, contact of rough surfaces. Required Materials: Current CV or Resume Brief nomination statement (2 pg maximum) There are a number of research opportunities available for students in the College of Engineering. Library Webpages 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. The University of Minnesota's first state-of-the-art autonomous research vehicle offers ME researchers new opportunities to study self-driving cars. Welcome to the Peripheral Neural Engineering and Urodynamics Lab (pNEURO Lab). Ann Arbor MI 48109 Research Interests: Understanding the inter-relationships between processing, alloying, microstructure and properties in metallic materials and in incorporating this knowledge into computational tools for use in research, education and engineering. I am a current Mechanical Engineering Master's student at the University of Michigan and a Biomedical Engineering graduate of The Ohio State University. In the current process, the freezing usually starts from a stationary cold plate. 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 View on Map. GM/U-M Institute of Automotive Research and Education As part of the team, the student involved will have an opportunity to learn various in vitro biology and imaging techniques. I have worked for quite a few years in mathematical biology, biophysics and materials physics. Maria Comninou Professor Emerita, Theoretical and Applied Mechanics 2020-Heute3 Jahre. Research Interests: Modeling, analysis and control of dynamic systems; rotating or translating elastic systems; manufacturing automation; vehicle control. Biomechanics - Biomedical Engineering at the University of Michigan Home People Biomechanics Carlos Aguilar, Ph.D. Assistant Professor, Biomedical Engineering caguilar@umich.edu 734-764-8557 A10-183 North Campus Research Complex 2800 Plymouth Road Ann Arbor, Mi 48109-2099 NOBEL Lab Thomas Armstrong, Ph.D., MPH Professor, Biomedical Engineering The ENGINEERING.com job board offers the best engineering jobs for engineers, with thousands of jobs in engineering across the U.S. and Canada. Research Interests: Dynamics including vibration and stability, nonlinear dynamics, experimental methods. Ultimately, we want to develop synthetic cells that can sense mechanical forces to trigger release of small molecules. . B.Tech Mechanical Engineering . 818 Hatcher Graduate Library South 913 S. University Avenue Ann Arbor, MI 48109-1190 (734) 764-0400 Send us an email Developing innovative systems to build high-quality, high-performance products. Research Interests: Nanoscale charge and energy transport, thermoelectric devices, microscale heat transfer, organic photovoltaics, scanning probe microscopy and optics. 2350 Hayward 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. Experimental results will be coupled with existing multi-physics models to gain fundamental insight into the limiting mechanisms that guide power output and cyclability. Interaction between manufacturing process parameters and failure modes. 5945 Buhl Building. 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: 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. Research Interests: Battery Modeling, Control and State of Health Estimation. 10 /10 placement. Associate Professor, Mechanical Engineering. COLLABORATION. Research Interests: Manufacturing processes, mechanical properties of materials, modeling of the manufacturing processes, effect of processing on the strength of fabricated parts. . Specifically we are working on computational fluid dynamics and computational materials modeling for additive manufacturing, welding, casting, powder metallurgy, and electrohydrodynamic printing processes. 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. 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. G.G. Research Interests: Energy justice and equity, sustainable energy and mobility systems, human-centered design methods, design needfinding, socially-engaged design, community engagement, optimization, cost modeling, agent-based modeling, uncertainty quantification, multi-attribute decision making, energy policy. Research Interests: Biomechanics including mobility impairments in the elderly; trips, slips, and falls; elderly decision-making and risk-taking in physical tasks; birth related injury; female stress urinary incontinence; spine biomechanics; athletic injuries; occupant vehicular safety. SM Wu Research Center Assistant Research Scientist, Mechanical Engineering. Internal Number: 573629BR. Automotive Research Center Driving new performance and operation technologies for ground vehicles. Research Interests: Our current research efforts have been focused on physics-based modeling for various advanced manufacturing processes. NSF Engineering Research Center for Reconfigurable Manufacturing Systems Developing innovative systems to build high-quality, high-performance products Automotive Research Center 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. User facilities. EngineerJobs.com; Engineering job source providing fast loading and easily accessible listings from across the United States. Present research focus is on lightweight structures for land, sea and air transportation applications. Research Interests: Adera earned his Ph. 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. 2350 Hayward and Ph.D. degrees in 2006 and 2010, respectively. Research Professor, Mechanical Engineering Research Professor, Internal Medicine Research Professor, Institute of Gerontology jaam@umich.edu (734) 763-2320 3443 G.G. This academic equivalency allows U-M graduate engineering students to bypass taking the certification exam to become certified system engineers, a major benefit. M.S., Mechanical Engineering, University of Colorado, 2011 B.S., Mechanical Engineering, SUNY Binghamton, 2009 Contact: Office number: 2011 Automotive Lab Phone: (734) 936-2137 Bio-sketch: Jesse Capecelatro is an Associate Professor in the Department of Mechanical Engineering at the University of Michigan. Contact: syadaval@umich.edu. Research Interests: Cavitation enabled therapy, Mechanics of soft and bio-materials, High speed rheometry, 3D bioprinting. Teams of Michigan Engineers and collaborators are improving smart infrastructure, autonomous transportation, weather prediction, nuclear nonproliferation and more through our research centers. Developed an advanced cleanroom process for . Work on challenging problems in an environment where a convergence of disciplines meet in one department. Research Interests: Lecturer for ME 360 and ME 461. Mechanical Engineering Department Awards Application deadline is 11:59 PM March 8, 2023 Click Here to Apply for the ME Departmental Awards or use the QR code below. Whether youre an undergrad who wants to expand your engineering fundamentals and experience research first hand or a PhD building an academic career, your ideas and perseverance make an impact. Phone: 313-593-5241. Mechanical Design and Electrical Packaging for Server Racks and Power Distribution Systems: Common Platform Power Box . BLUELab, Multidisciplinary Design Program, International Programs or the College of Engineering Honors Program). Education: Ph.D. in Materials Engineering, Brown University (2021) B-Tech and M-Tech in Metallurgical and Materials Engineering, Indian Institute of Technology Madras (2016) Research Focus: Photovoltaics, Solid-state Batteries. Depending on the students interests, the project may emphasize basic flow physics studies using large-scale numerical simulations, numerical methods development, and/or data-driven modeling/machine learning. 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. 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. For us, interdisciplinary collaboration comes naturally because it comes first. Research Interests: Development and use of quantitative nuclear magnetic resonance techniques to explore and constrain the physics of displacements (1) in full volume non-linear elasticity in soft tissues, tendons, ligaments, polymers, elastomers; (2) in Newtonian and non-Newtonian fluid flow and tracer transport within natural and manufactured porous media. View on Map. Previous Events. Bold ideas and noble failures engineering for the common good, We do not make or use technology in a way that is separate from the culture and society we are part of. SROP is supported by the Committee on Institutional Cooperation, a consortium of the Big Ten member universities and the University of Chicago. 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. Engineering Management - with a particular interest in product development. University of Michigan, BSE Mechanical Engineering, 2005 University of Michigan, MSE Mechanical Engineering, 2006 . Physics-informed AI for structural and assembly optimization. MI Hydrogen, a joint venture by the Office of the . Research Interests: Design research, complex systems design, design of product eco-systems, multi-disciplinary design teams, multi-disciplinary design optimization, modeling of team-based design decision-making, design for emerging markets, socially-engaged design, design for entrepreneurship. Mohammed Asaker is a highly driven Mechanical Engineer with a diverse background in Energy, Project Management, Research and Development. Associate Professor, Biomedical Engineering rhimacol@umich.edu 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. Research Interests: Microscale heat transfer, especially related to electronic and optoelectronic devices; thermoelectric energy conversion; medical applications of heat transfer. Research Interests: Optimization, modeling, design, and control of robotic systems that interact with humans and the environment. It is time to apply for graduate school at U-M Mechanical Engineering. Selection Process: Once the SUREManager has shared your application with the Department, we will provide the eligible applications to the Faculty Mentors who will review your application materials. Mechanical Engineering MSE + Master of Management About this dual master's degree: The dual degree program with the Ross School of Business presents a unique opportunity for students to supplement their engineering expertise with a foundational business curriculum and action-based learning in the Master of Management (MM) program. Interaction of business, product, and process in engineering systems. Discussion Instructor for ME 211. Office of the Vice President for Communications. All participants must apply online through the SURE website. Brown Laboratory Mark Burns, Ph.D. We share a campus with leaders in business, medical and liberal arts, whose expertise elevates our engineering research. Lean product design. The program provides opportunities for students to assess their interests and potential in pursuing research at the Masters or Ph.D. level in graduate school. 10 /10 academic/food. The Undergraduate Research Opportunities Program is primarily designed for University of Michigan undergraduate students enrolled on the Ann Arbor campus who are seeking first time research experience. 1221 Beal Ave. Ann Arbor, MI 48109-2102 +1 (734) 647-7000 . You do not need to do anything else, but if you have any specific questions regarding a SURE Project, you are welcome to reach out to the listed Faculty Mentor. Brown Laboratory Barton continued her education in mechanical engineering at the University of Illinois at Urbana-Champaign and completed her M.S. Research Interests: Computational design. 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: Control theory and applications; logic control for manufacturing systems including diagnostics, fault handling, and recovery; modular control systems; networked control systems; performance management of computing systems; web-based tutorials for controls education. 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. 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. I am a Ph.D. candidate at the University of Michigan, with extensive research experience in Deep Reinforcement Learning, Strategic Planning in Multiagent Systems, and Human-Autonomy Collaboration. document.write(new Date().getFullYear()); The University of Michigan will lead a suite of projects involving multiple institutions to boost understanding of solid-state EV power cells. Research Interests: My major research interest is in understanding the inter-relationships between processing, microstructure and properties in materials; with an emphasis on mechanical, electrical and magnetic applications. 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. Research Interests: Multi-sensor monitoring of manufacturing processes, specifically machining, welding, and laser processing; multiple-beam laser processing. Research Interests: Multiscale simulations of complex systems, nanoparticle growth and self-assembly, nanoparticle interactions with biomolecular systems, applied chemical kinetics, aerosols. 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.