Thats just the start of why our Centers and Institutes are a hub of academic and corporate innovation. 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. Michigan Engineering. NSF Engineering Research Center for Reconfigurable Manufacturing Systems . 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. Srinivas Yadavalli. 2000 - Heinz Prechter Engineering Complex. ME x90 (290, 390, 490) are individual or group project work where students apply mechanical engineering principles to research, innovation, service or entrepreneurship projects. Classes are available in the Fall (September-December), Winter (January-April), Summer I (May-June) and Summer II (July-August) terms. Associate Research Scientist Emeritus, Mechanical Engineering. 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. Product quality. 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. General Timeline:January Application opens and is dueFebruary Applications are reviewedMarch Offers will begin being sent outApril Offers may still be issued during this timeMay SURE Projects may begin, Learn more:https://sure.engin.umich.edu/, ME Project #1: Dynamics of Piezoelectric MicrosystemsFaculty Mentor: Kenn Oldham, oldham@umich.eduPrerequisites: Statics and or dynamics courseworkProject Description: Piezoelectric microsystems are miniature sensors and actuators that convert strain to voltage, and vice versa, in devices just a few millimeters in size. 2350 Hayward Title: Miniaturized Fabry-Perot Polymer Film Ultrasound Sensor for Photoacoustic Endoscope System Date: 03/10/2023 11:00 am Location: BIOMEDICAL SCIENCE RESEARCH BUILDING, ROOM 2515. 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). 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. 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. The project, if successful, will allow the fabrication of consistent porous ceramics microstructure along the freezing direction.Research Mode: In-Lab, ME Project #9: Computational Studies of High-Speed Interfacial FlowsFaculty Mentor: Eric Johnsen, ejohnsen@umich.eduProject Description: In this project, the student will computationally investigate the evolution of interfaces separating different fluids (e.g., bubbles, droplets, etc.) SROP is supported by the Committee on Institutional Cooperation, a consortium of the Big Ten member universities and the University of Chicago. 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. University of Michigan, BSE Mechanical Engineering, 2005 University of Michigan, MSE Mechanical Engineering, 2006 . College Level REU Program: Our efforts have generated tremendous interest in the research Experience for Undergraduates program. Office of the Vice President for Communications. Contact: syadaval@umich.edu. This convergence of disciplines and unparalleled access to resources means we are uniquely equipped to design and lead complex initiatives from the lab to industry. Michigan BME not only enjoys the facilities and resources of a major research university, but also . Professor, Biomedical Engineering . 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. Brown Laboratory 2020-Heute3 Jahre. Research Interests: Thermal sciences, power systems, cryogenics, boiling heat transfer, superconducting power transmission. 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. 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. Research Interests: Stem Cell Bioengineering, Developmental Bioengineering, Mechanobiology, and BioMEMS, Research Investigator, Mechanical Engineering. 3666 G.G. 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. Current research topics include the exploration of novel sensing and control techniques for improving the coordination and precision motion control of multiple systems. 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. Pioneering advances in manufacturing processes. Brown Laboratory All participants must apply online through the SURE website. 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. As part of the team, the student involved will have an opportunity to learn various in vitro biology and imaging techniques. NSF Engineering Research Center for Reconfigurable Manufacturing Systems 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. Non-Discrimination Policy | While primarily for first and second year students, there are a small number of opportunities for juniors and seniors. 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 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 . 2350 Hayward 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: 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. 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 Students who qualify are eligible for up to $500/semester (Fall/Winter) or a laptop. 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. 2000 - Heinz Prechter Engineering Complex. Our researchers lead global endeavors that advance our species and planet. Although promising, current salt hydrate reactors tend to be demonstrations and suffer from a lack of design optimization. Library Webpages My work draws upon nonlinear physics, applied mathematics and numerical methods. More about our vision > Ann Arbor MI 48109 I will have a data . 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. 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. Research Interests: Control theory and applications; iterative learning control; multi-agent systems; human/robot collaborations; smart manufacturing; manufacturing robotics; high-performance micro/nano-scale printing for electrical and biomedical applications, Research Interests: Current Energy Conversion; Enhancement of High-Damping, High-Reynolds Vortex Induced Vibration; Suppression of Vortex Induced Vibration; Mooring System Dynamics; Structural Redesign and Topology/Material Evolution; Riser and Pipeline Mechanics. University of Michigan, BSE Mechanical Engineering, 1998 . Present research focus is on lightweight structures for land, sea and air transportation applications. Our faculty and students go after mechanical engineerings toughest challenges, and what they find influences science and changes lives. 9 /10 infrastructure. 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 . Mohammed Asaker is a highly driven Mechanical Engineer with a diverse background in Energy, Project Management, Research and Development. 10 /10 academic/food. Simulations of spark ignited and advanced autoignition combustion modes using 1D models and 3D CFD including large scale parallel simulations. We share a campus with leaders in business, medical and liberal arts, whose expertise elevates our engineering research. Experimental results will be coupled with existing multi-physics models to gain fundamental insight into the limiting mechanisms that guide power output and cyclability. Read more Realizing Breakthroughs 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. Research Interests: Reconfigurable manufacturing systems; global manufacturing; flexible automation; sensing and controls of machining processes; generation of complex surfaces in CNC. -Assignment at Engine Services for the migration of Engine tool data into the SAP . 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. Mechanical Design and Electrical Packaging for Server Racks and Power Distribution Systems: Common Platform Power Box . DEPTH. 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 involving Experimental Flight Test. Product development. Applications include renewable energy, disease transmission, and space exploration. BLUELab, Multidisciplinary Design Program, International Programs or the College of Engineering Honors Program). Searching for Standards - Mechanical Engineering Capstone - Research Guides at University of Michigan Library Mechanical Engineering Capstone Getting Standards from the Art, Architecture & Engineering Library How Do I Get a Copy of a Standard in the Art, Architecture & Engineering Library? Research Interests: Cochlear mechanics and hearing; acoustic and vibrational transducers; prosthetics and sensors for biomedical applications; MEMS; distributed, active metamaterials; mechanics and computational mechanics; structural acoustics. 2350 Hayward The University of Sheffield, Sheffield | UK Advanced Mechanical Engineering MSc. . Our research runs the gamut from basic to translational, with a well-developed tech transfer pipeline. View on Map. I am a current Mechanical Engineering Master's student at the University of Michigan and a Biomedical Engineering graduate of The Ohio State University. 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. Ann Arbor, Michigan, United States. It is time to apply for graduate school at U-M Mechanical Engineering. 10 /10 faculty. 1221 Beal Ave. Ann Arbor, MI 48109-2102 Ann Arbor MI 48109 Some specific problems that I have been thinking about recently are: (1) mathematical models of patterning and morphogenesis in developmental biology, (2) scale bridging using scientific machine learning, (3) using machine learning and graph-based methods to solve partial differential equations, (4) mechano-chemically driven phenomena in materials, such as phase transformations, electro-chemo-thermo-mechanics and the like, motivated by materials for batteries, electronics and structural alloys. Ann Arbor MI 48109 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). Dearborn, MI 48128. 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. In the current process, the freezing usually starts from a stationary cold plate. 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). Campus Safety. This project will focus on the design and testing of a lab-scale reactor prototype to see how system parameters impact the performance of the salts. Impact of fuel properties and kinetics on engine efficiency and emissions. Design of manufacturing and service systems. The Ph.D. program in Mechanical Sciences and Engineering at the University of Michigan-Dearborn educates and trains talented students who will conduct original and innovative research in the engineering field, educate future generations, and play leading roles in developing cutting-edge technologies while working in industry, academia, and Research Interests: Nanoscale charge and energy transport, thermoelectric devices, microscale heat transfer, organic photovoltaics, scanning probe microscopy and optics. degree in Mechanical Engineering from the University of Colorado at Boulder in 2001. Research Interests: Theory, methodologies and tools for control system integration and optimization, with applications to marine and automotive systems; Connected and automated transportation systems; Renewable energy systems. Chemical and physical properties of fuels, alternative fuels, lubricants. 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. 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. Interaction with engineering and medical school faculty are planned.Research Mode: In-Lab, G.G. 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. Searching for Patents Citation Management Software Professional Organizations Library Contact Paul Grochowski grocho@umich.edu Schedule Appointment Contact: 2321A Duderstadt Center Finding Information in Mechanical Engineering Use the tabs to the left to learn more about finding information in Mechanical Engineering. 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. Research assistant at University of Michigan. Fax: 313-593-9967. umd-medept@umich.edu. Accepted applicants from the University of Michigan receive guidance from a faculty advisor in a College of Engineering research facility, a stipend of $6,000, and attend regular meetings and seminars. ft. cleanroom nanofabrication facility. Any notification of an offer will be sent from the SUREManager. We are seeking a research scientist to perform original research advancing the state of the art in plasma etch technology. 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. 4901 Evergreen Road. Interiors Engineer, Aircraft Services. Professor Emerita, Theoretical and Applied Mechanics. The event Kazuhiro Saitou on LinkedIn: UM Mechanical Engineering 3 Minute Thesis (3MT) Competition With incomparable facilities, a great location and long-standing relationships with industry, were uniquely positioned to do research that cant be done anywhere else. I am very excited to announce the UM Mechanical Engineering Three Minute Thesis Competition (3MT) Competition, sponsored by Rackham Graduate School. Outreach Working to provide the research, of NSF and the ERC/RMS, to communities beyond our own, the ERC has nurtured growth in three areas of outreach: (1) College-level, (2) Grades K-12, and (3) the Community. The Integrative Systems + Design Division offers the opportunity for students to achieve INCOSE certification.
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