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. Research Interests: Solid mechanics including thermoelasticity; elasticity; solidification; contact mechanics; tribology; elastodynamics, fracture; stability of thermoelastic contact; friction, contact of rough surfaces. Design of machine components and systems. Good engineering department and faculty as well as good research groups. Contact: (734) 647-0197, mipse-central@umich.edu. 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. Fees. . 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. 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. My group works on a variety of applications including locomotion of legged robots, prosthetic control, autonomous vehicles, and soft robots. Phone: 313-593-5241. The University of Minnesota's first state-of-the-art autonomous research vehicle offers ME researchers new opportunities to study self-driving cars. 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. The influence of designer personality and environment on design outcomes. 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: 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. jaam@umich.edu (734) 763-2320 . Thats just the start of why our Centers and Institutes are a hub of academic and corporate innovation. Products design for flexible manufacturing systems. Research Interests: Computational design. 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. . document.write(new Date().getFullYear()); 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: Fluid mechanics, with an emphasis on multiphase flow, turbulence, reacting flows, and high-performance computing. Research Interests: Mechamatronic system design methodology; smart materials and structures, Research Scientist Emeritus, Mechanical Engineering. Energy storage and electrochemistry Battery model and simulation Development of advanced battery materials . Finding Standards - Mechanical Engineering - Research Guides at University of Michigan Library Getting Standards from the Art, Architecture & Engineering Library How Do I Get a Copy of a Standard in the Art, Architecture & Engineering Library? 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. Principal Investigator Solomon Adera Assistant Professor, Department of Mechanical Engineering, University of Michigan Education: PhD, MechE, MIT Phone off: (734) 647-2300 cell: (617) 852 - 2962 Email: sadera@umich.edu Address: 2350 Hayward Str eet, Ann Arbor, MI 48109 Off: 2428 G. G. Brown Lab: 2227 G. G. Brown Research Interests: Lecturer with a focus in teaching dynamics and controls. 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. 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. Professor, Biomedical Engineering . Research Interests: Computational mechanics; finite element methods; structural dynamics; flexible multibody dynamics; dynamic response of composites; vehicle dynamics; engineering mechanics education. 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. Create smart machines. In this project, we are using complementary peptides or DNA strands to induce fusion between two membranes and developing strategies to have membrane fusion be dependent on calcium ions. 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: Thermal sciences, power systems, cryogenics, boiling heat transfer, superconducting power transmission. 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. Product quality. New ME Faculty Positions . 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. Please visit the, Transferring Credit from Another Institution, Summer Undergraduate Research in Engineering, Undergraduate Research Opportunities Program, Office of the Vice President for Communications. Biomechanics Research Laboratory - Home for Biomechanics Research Laboratory Mechanical Engineering at the University of Michigan - Ann Arbor. Most awards will have multiple recipients. Ann Arbor, Michigan, United States. This project will analyze an example production process and how its success will depend on the availability of suitable policy support. 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. He was a postdoctoral associate at the Harvard University before moving to the University of Michigan. Mechanical Engineering. The Integrative Systems + Design Division offers the opportunity for students to achieve INCOSE certification. Interiors Engineer, Aircraft Services. Find your fit and pursue your passion. Welcome to the Peripheral Neural Engineering and Urodynamics Lab (pNEURO Lab). Barton continued her education in mechanical engineering at the University of Illinois at Urbana-Champaign and completed her M.S. The Regents of the University of Michigan Ann Arbor, MI 48109 USA, Privacy Policy | My specific areas of interest include equitable design processes, design theory & methodology, public health, social equity, and global development. 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. Applications include drug transport, bacterial biofilms control, combustion, ultra-soft materials, and low temperature plasma. Ann Arbor MI 48109 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. Michigan Engineering. There are a number of research opportunities available for students in the College of Engineering. MI Hydrogen, a joint venture by the Office of the . 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. These bones are responsible for transmitting sound from the outer ear to the fluid-filled cochlea which then sends signals to the brain. Engineering is at the forefront of human progress and problem solving. Discussion Instructor for ME 211. 0 0. . 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. and Ph.D. degrees in 2006 and 2010, respectively. 2350 Hayward 4901 Evergreen Road. Applications include biomedical engineering, energy, aeronautics, turbomachinery, naval engineering and high-energy density physics. -Preparation of Design modifications and new designs for interior modifications for VIP and regular airline aircraft. Research Interests: Design, optimization, and dynamics of new generations of engineered materials (metamaterials) that allow improved control over the propagation of acoustic, elastic and electromagnetic waves with applications in biomedical engineering, telecommunications, aero- and underwater acoustics; noise control; smart materials; mechatronics. 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. He is particularly interested in the development of tethered systems for harnessing wind and marine hydrokinetic energy, the development of persistent mission planning algorithms for renewably powered robotic networks, and the use of connected and autonomous vehicles to realize substantial fuel economy improvements over conventional vehicles. Mechanical engineers who have a positive impact on the world around them Read the full message from the chair 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. G.G. Ann Arbor, MI 48109. Research Interests: Lecturer for ME 360 and ME 461. 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. University of Michigan. 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. Some of the opportunities require students to initiate the conversation with the faculty they would like to complete research with, while other programs match interested students with participating faculty. 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. 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 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. Previous Events. Brown. GM/U-M Institute of Automotive Research and Education Phone: (734) 764-2694, 2021 The Regents of the University of Michigan, Summer Research Opportunities Program (SROP), is a gateway to graduate education. Research Interests: Robotics, Manufacturing, and Medical device implementation. 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 . His research interests include heat and mass transfer, phase-change (evaporation, condensation, freezing), water/fog harvesting, micro/nanoengineering, and fluid-structure interactions. D. in Mechanical Engineering from MIT. 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. 2515 BSRB 109 Zina Pitcher Pl, Ann Arbor, MI. The University of Michigan will lead a suite of projects involving multiple institutions to boost understanding of solid-state EV power cells. Although promising, current salt hydrate reactors tend to be demonstrations and suffer from a lack of design optimization. Experienced in computational physics, data analysis, machine . 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. 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. The short list of our greatest strengths includes computing, energy and sustainability, manufacturing, precision medicine, robotics, security and space. 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. 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. By absorbing and releasing water vapor from the air, salt hydrates can shift building heating and cooling loads. Many of Michigan Engineering's most advanced facilities are available to outside users for a fee.These include labs for nanofabrication, space research, hydrodynamics, radiation effects in materials and material characterization as well as a radio . . Applications of controls to manufacturing systems. 3666 G.G. Tim Manganello/BorgWarner Department Chair, Mechanical Engineering. dtburke@umich.edu. Impact of fuel properties and kinetics on engine efficiency and emissions. 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. Mark Burns, Ph.D. 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.