Recent focus in the areas of numerical error analysis, uncertainty quantification, hypersonic design and optimization, and rotating detonation engines. 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: Design; smart materials and structures; sensor and actuator design; structural dynamics; vibration and noise control; mechatronics, smart mechanisms. The University of Minnesota's first state-of-the-art autonomous research vehicle offers ME researchers new opportunities to study self-driving cars. SM Wu Research Center 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. G.G. 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: Advanced Nanofabrication, Nanomanufacturing, and Microsystem Technologies, and Their Applications in Nanoelectronics, Nanophotonics, Integrated Biosensing Systems, and Airborne Sensing Systems Based on Microdrones. 0 0. . I have worked for quite a few years in mathematical biology, biophysics and materials physics. Interaction between manufacturing process parameters and failure modes. Research Interests: Thermal sciences, power systems, cryogenics, boiling heat transfer, superconducting power transmission. NSF Engineering Research Center for Reconfigurable Manufacturing Systems . Michigan BME not only enjoys the facilities and resources of a major research university, but also . Ann Arbor, MI 48109. 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. 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. Most awards will have multiple recipients. View on Map. University of Michigan. Research Interests: Elasticity; elastodynamics; fracture mechanics; dislocations; fatigue. Over 360 million people worldwide and 30 million people in the US suffer from significant hearing loss (loss that affects their daily life), and auditory prostheses (hearing aids and cochlear implants) make a significant difference in peoples lives. Automotive Research Center 3666 G.G. This project will analyze an example production process and how its success will depend on the availability of suitable policy support. Research Interests: Bio-inspired engineering design - soft robots, complaint and shape-adaptive systems; Topology, size and shape optimization of complaint mechanisms - product design for no-assembly; Design for manufacturability; Technology policy and advanced manufacturing. 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. 4901 Evergreen Road. 2515 BSRB 109 Zina Pitcher Pl, Ann Arbor, MI. Research Interests: Fluid mechanics, including computational fluid dynamics, heat pumps, thermoelectrics, computer modeling. 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. Applications include renewable energy, disease transmission, and space exploration. Our faculty and students go after mechanical engineerings toughest challenges, and what they find influences science and changes lives. SROP is supported by the Committee on Institutional Cooperation, a consortium of the Big Ten member universities and the University of Chicago. Our researchers lead global endeavors that advance our species and planet. Please visit the SROP website to learn more about the research opportunities and how to apply. 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. Fax: 313-593-9967. umd-medept@umich.edu. The Michigan Institute for Plasma Science and Engineering (MIPSE) brings together teams of plasma researchers to investigate fundamental phenomena and translate advances in plasma science across medicine, manufacturing, microelectronics, medicine, green technologies and space exploration. The Integrative Systems + Design Division offers the opportunity for students to achieve INCOSE certification. Research Interests: As a materials scientist and engineer with an interest in synthesis, processing, and functionalization of ceramics and hydrogels, his research is highly interdisciplinary guided by the fields of energy storage/conversion and biomedicine. Departments & programs. Access the standard (s) you need based on the issuing agency: Although promising, current salt hydrate reactors tend to be demonstrations and suffer from a lack of design optimization. Students will have an opportunity to advance their academic and research skills by working one-on-one with a faculty mentor. University of Michigan School of Medicine 1241 East Catherine Street Ann Arbor, MI 48109 . Wei Lu Research Group. 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. 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: Optimization, modeling, design, and control of robotic systems that interact with humans and the environment. Research Interests: Sensory augmentation, rehabilitation engineering, biomechanics, medical device design (emphasis on global health contexts and task-shifting devices), design science, engineering design education. Our research runs the gamut from basic to translational, with a well-developed tech transfer pipeline. Designed a nano-probe for intracellular sensing with an electro-optomechanical system for the probe positioning and manipulation, and a custom interface with a fluorescence microscope. 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. 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. Jolie Stepaniak, Henry Ford Community College, prepares a plate in the Lurie Nanofabrication Facility on August 1, 2013. Tim Manganello/BorgWarner Department Chair, Mechanical Engineering. Skilled in Advanced Product Quality Planning (APQP), Continuous Improvement, Team Building . Phone: (734) 764-2694, 2021 The Regents of the University of Michigan, Click here to access and submit application, https://en.wikipedia.org/wiki/Freeze-casting, Office of the Vice President for Communications. Non-Discrimination Policy | Prof. Kira Barton (bartonkl@umich.edu) received her B.S. I am a current Mechanical Engineering Master's student at the University of Michigan and a Biomedical Engineering graduate of The Ohio State University. Specific research and development topics include constraint-based design, parallel kinematics, flexure mechanisms, dynamics of flexible systems, electromagnetic actuators, medical devices for minimally invasive surgery, precision motion stages for semiconductor metrology, motion sickness mitigation in autonomous vehicles, rehab robotics, modular prostheses, and micro-electromechanical systems (MEMS). 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. Research Interests: Computational mechanics including flexible multibody dynamics, structural optimization, structural dynamics and structural acoustics; development of numerical tools for the evaluation and analysis of rattle noise. Research Interests: Robotics, Manufacturing, and Medical device implementation. Brown 2350 Hayward Street Ann Arbor, MI 48109-2125 Research Profile Biomechanics Research Laboratory Page The program provides students with the opportunity to participate in research activities at a different university. 2000 - Heinz Prechter Engineering Complex. Engineering research office: Associate Dean for Research (ADR), Research Interests: Lecturer with a focus in teaching dynamics and controls. 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. 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 . Brown Laboratory We are seeking a research scientist to perform original research advancing the state of the art in plasma etch technology. Accepted applicants from the University of Michigan receive guidance by a faculty advisor in a College of Engineering research facility, a stipend of $6,000, attend regular meetings and seminars and contribute to an abstract booklet with highlights of their summer research project and/or experience. 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. Phone: 313-593-5241. jaam@umich.edu (734) 763-2320 . Ann Arbor MI 48109 My group works on a variety of applications including locomotion of legged robots, prosthetic control, autonomous vehicles, and soft robots. 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. Mechanical Engineering. 2350 Hayward 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. Research Interests: Solid mechanics including thermoelasticity; elasticity; solidification; contact mechanics; tribology; elastodynamics, fracture; stability of thermoelastic contact; friction, contact of rough surfaces. KLA. 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. Michigan Robotics | University of Michigan Work together. 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. Our students innovate using world-class equipment and help lead our Utilizing integrated skills, students innovate using world-class equipment and help lead our most interesting endeavors with industry-leading researchers. Research Interests: Mechanics of continua including nonlinear elasticity and viscoelasticity of polymers; theory of interacting continua; non-Fickian diffusion in polymers; yield-induced phenomena in polymers; modeling microstructural changes in polymers; studies in electrorheological fluids. 2350 Hayward Research Interests: Precision machine design; development of exoskeletons / robotic prostheses; brushless motors; dynamics of human locomotion; human perception and psychophysics; neural control of movement; biomechanics; human performance augmentation. Research Interests: Estimation and control of internal combustion engines and electrochemical processes such as fuel cells and batteries. Required Materials: Current CV or Resume Brief nomination statement (2 pg maximum) Our award-winning Undergraduate Research Opportunity Program (UROP) pairs first- and second-year students with U-M faculty and research scientists to create research partnerships. ME x90 (290, 390, 490) are individual or group project work where students apply mechanical engineering principles to research, innovation, service or entrepreneurship projects. Developing innovative systems to build high-quality, high-performance products. Research Interests: I am a computational scientist focusing on the development of scientific machine learning and methods for data-driven computational science. G.G. Read more Realizing Breakthroughs All schools and colleges at U-M actively participate in UROP, so your research possibilities span the breadth of the entire university. SAE Mobilus Includes access to SAE Technical Papers, SAE E-Books, and SAE Standards. These bones are responsible for transmitting sound from the outer ear to the fluid-filled cochlea which then sends signals to the brain. Mechanical Engineering (ME) Naval Architecture and Marine Engineering (NAME) Nuclear Engineering and Radiological Sciences (NERS) Robotics (Rob) University of Michigan Transportation Research Institute (UMTRI) SURE. Research Interests: Intelligent Maintenance of Large Industrial Systems; Optimization of Manufacturing Operations; Manufacturing Process Modeling, Analysis and Design; Precision Engineering and Metrology; Quality Control Methods. Teams of Michigan Engineers and collaborators are improving smart infrastructure, autonomous transportation, weather prediction, nuclear nonproliferation and more through our research centers. Research Interests: Mechanics and physics of soft matter; flow and segregation of granular materials, machine learning for disordered solids; Research Interests: Solid mechanics, applied mathematics, and numerical analysis including plasticity; structural optimization; manufacturing process optimization; structural crash worthiness; optional design of wheels; welding. The project will examine how policies will favor or support particular technology pathways.Research Mode: In-Lab, Hybrid, ME Project #7: 3D-Printing of Custom Assistive DevicesFaculty Mentor: Albert Shih, shiha@umich.edu Project Description: This project explores the use of 3D-printing (also known as additive manufacturing) for custom assistive devices to improve the quality of care for people with disabilities. With over 5 years of experience in the field, Mohammed has developed a . Product development. Classes are available in the Fall (September-December), Winter (January-April), Summer I (May-June) and Summer II (July-August) terms. Ann Arbor MI 48109 Experienced Engineering Group Manager with a demonstrated history of working in the automotive industry. 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. D. in Mechanical Engineering from MIT. 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 so I ended up getting a masters in Mechanical Engineering at the University of Michigan, focusing on environmental sustainability. NSF Engineering Research Center for Reconfigurable Manufacturing Systems Developing innovative systems to build high-quality, high-performance products Phone: (734) 764-2694, 2021 The Regents of the University of Michigan, Summer Research Opportunities Program (SROP), is a gateway to graduate education. Markov chain models, including the application of predictive control. I am very excited to announce the UM Mechanical Engineering Three Minute Thesis Competition (3MT) Competition, sponsored by Rackham Graduate School. 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 Summer Research Opportunities Program is a gateway to graduate 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. Dearborn, MI 48128. 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. Products design for flexible manufacturing systems. Mark Burns, Ph.D. Engineering is at the forefront of human progress and problem solving. Simulations of spark ignited and advanced autoignition combustion modes using 1D models and 3D CFD including large scale parallel simulations. 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: 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. View on Map. ft. cleanroom nanofabrication facility. 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. 10 /10 placement. 12 months All participants must apply online through the SURE website. After serving on an operational Coast Guard Cutter, I rededicated myself to pursuing my technical education and accepted a position in the USCG Marine Engineering Post Graduate Program, where I attended the University of Michigan and earned dual Master of Science degrees in Naval Architecture and Mechanical Engineering in 2012. For general questions, please feel free to contact us at SUREprogram@umich.edu Contact Mary Saah Executive Assistant Office of Student Affairs GM/U-M Institute of Automotive Research and Education The influence of production system approaches across industries. Serve society. High-performance supercomputers and detailed numerical simulations to study the performance of combustion devices. Research Interests: Dynamics including vibration and stability, nonlinear dynamics, experimental methods. 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. Mechanical Engineering; College of Engineering; University of Michigan; Barton Research Group. Campus Safety. MI Hydrogen, a joint venture by the Office of the . 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. Phone: (734) 764-2694, 2021 The Regents of the University of Michigan, Assistant Professor, Mechanical Engineering. The program aims to provide students with an opportunity to assess their interests and potential in pursuing research at the graduate level. Research Interests: Mechamatronic system design methodology; smart materials and structures, Research Scientist Emeritus, Mechanical Engineering. I will have a data . Research Interests: Heat transfer, thermodynamics, solar energy, solar thermal processes, solar systems design, economics, multi-phase systems, thermal recovery heat exchangers. 2000 - Heinz Prechter Engineering Complex. Brown Laboratory 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. Contact: syadaval@umich.edu. 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: Design, Fabrication, Control and Evaluation of Human Assist Devices, Gait Analysis, Biomechanics, Instrument Design. For us, interdisciplinary collaboration comes naturally because it comes first. Applications include miniature robotics, medical devices, and micro-assembly. We have already begun this redesign phase, creating CAD drawings and ideation of the design, and look to continue this process. 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: Modeling, analysis and control of dynamic systems; rotating or translating elastic systems; manufacturing automation; vehicle control. G.G. The influence of designer personality and environment on design outcomes. There are a number of research opportunities available for students in the College of Engineering. 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. As part of the team, the student involved will have an opportunity to learn various in vitro biology and imaging techniques. 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 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. Specifically we are working on computational fluid dynamics and computational materials modeling for additive manufacturing, welding, casting, powder metallurgy, and electrohydrodynamic printing processes. 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 . Design theory and methodology. Research Interests: Impact/Injury Biomechanics: Parametric Human Modeling, Statistical Injury Data Analysis, Cadaver/Volunteer/Dummy Testing - Occupant Protection: Safety equity among diverse populations, Restraint Design Optimization, Rear Seat Occupants, Oblique Impacts, Adaptive Restraint Design, Active and Passive Safety Integration, Tactical Vehicle Safety, Vulnerable Populations, Automated Vehicles, Child Seat Design, Rollover Crashes - Others: Pediatric Fall and Child Abuse, Seat Comfort, Computer Aided Surgery, Research Interests: Manufacturing systems: configuration design, performance analysis (quality, productivity and responsiveness), mass customization. Professor Emerita, Theoretical and Applied Mechanics.
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