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 . Research Interests: Mechamatronic system design methodology; smart materials and structures, Research Scientist Emeritus, Mechanical Engineering. Michigan Mechanical Engineering is home to four fully-funded, world-class centers. Conduct searches by state, job title, and many other methods. 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. 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. 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: Computational design. The Integrative Systems + Design Division offers the opportunity for students to achieve INCOSE certification. Research Interests: Elasticity; elastodynamics; fracture mechanics; dislocations; fatigue. And the challenges we're tackling are too complex for one discipline alone. In the current process, the freezing usually starts from a stationary cold plate. This is akin to how natural platelets and macrophages secrete enzymes when they become stimulated. Applications include biomedical engineering, energy, aeronautics, turbomachinery, naval engineering and high-energy density physics. The influence of production system approaches across industries. 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. Research Interests: My research, which focuses on making impactful contributions to the areas of manufacturing and sustainability, considers multiple scales: identifying significant opportunities to cut emissions and/or costs by conducting large scale analyses on processes, factories and material supply chains, and pursuing a rigorous technical analysis in order to capitalize on the opportunities. 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. 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. Research Interests: Internal combustion engines, emissions. 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 Research Interests: Adera earned his Ph. The U-M Department of Mechanical Engineering is located on the University of Michigans North campus in Ann Arbor, a vibrant mid-sized city known for its sprawling greenery and exposed-brick facades, its array of enticing eateries and historic theaters, and, of course, Michigan Football! Pioneering advances in manufacturing processes. 3D printing software invented in ME lab and developed by Ulendo is able to print faster without sacrificing quality. Phone: 313-593-5241. GM/U-M Institute of Automotive Research and Education 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: Solid mechanics including thermoelasticity; elasticity; solidification; contact mechanics; tribology; elastodynamics, fracture; stability of thermoelastic contact; friction, contact of rough surfaces. Research Interests: (1) High-speed method for directly joining plastics directly to metals for manufacture of multi-materials lightweight structures; (2) solid-state rapid deposition technique for additive manufacture of bimetal components without introducing detrimental intermetallic compounds; (3) Fracture mechanics modeling of randomly distributed defects in additively-manufactured metal components; (4) smart modular design for manufacturing and assembly methods for advanced lightweight marine structures. Research Interests: Optofluidics; Functional Nanomaterials; Bioinspired Active Optical System; Solar Optics Based Active Panel for Energy Harvesting and Storage: Integrated Molecular Detection System. University of Michigan. 2515 BSRB 109 Zina Pitcher Pl, Ann Arbor, MI. ME x90 (290, 390, 490) are individual or group project work where students apply mechanical engineering principles to research, innovation, service or entrepreneurship projects. Good engineering department and faculty as well as good research groups. College Level REU Program: Our efforts have generated tremendous interest in the research Experience for Undergraduates program. Research Professor, Mechanical Engineering. 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. 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. There are significant technical, financial, and regulatory barriers to overcome to build up the associated industry. 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. Manufacturability-driven structural topology optimization. 9 /10 infrastructure. Research Interests: Systems and control including machine design, control, monitoring, and diagnostics; physical system modeling; automated modeling; bond graph theory; proper modeling of active suspensions; proper vehicle handling and ride models; high efficiency dynamic formulations for vehicle dynamics; monitoring and control of thermally induced spindle bearing loads; design and control of high speed spindles and novel milling machines. Most awards will have multiple recipients. 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. Ultimately, we want to develop synthetic cells that can sense mechanical forces to trigger release of small molecules. Design of machine components and systems. Product quality. 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. Applications of controls to manufacturing systems. Research Interests: Robotics, Manufacturing, and Medical device implementation. 2021 The Regents of the University of Michigan. Research Interests: Multiscale simulations of complex systems, nanoparticle growth and self-assembly, nanoparticle interactions with biomolecular systems, applied chemical kinetics, aerosols. undergoing large accelerations. Specifically we are working on computational fluid dynamics and computational materials modeling for additive manufacturing, welding, casting, powder metallurgy, and electrohydrodynamic printing processes. Developing and applying optical measurement techniques to diagnose diseases of the human eye. 10 /10 academic/food. 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. 4901 Evergreen Road. Projects include incremental forming of sheet metal and nano-particle additions to aluminum alloys. 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. KLA. Design of manufacturing and service systems. 2023 Research Projects. Research Interests: Computational mechanics; finite element methods; structural dynamics; flexible multibody dynamics; dynamic response of composites; vehicle dynamics; engineering mechanics education. COLLABORATION. DEPTH. 10 /10 faculty. 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: 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. More about our vision > Ann Arbor, MI 48109. NSF Engineering Research Center for Reconfigurable Manufacturing Systems His research interests include heat and mass transfer, phase-change (evaporation, condensation, freezing), water/fog harvesting, micro/nanoengineering, and fluid-structure interactions. 1241 East Catherine Street. Thesis Defense: Tong Li. Engineering is at the forefront of human progress and problem solving. Please visit the, Transferring Credit from Another Institution, Summer Undergraduate Research in Engineering, Undergraduate Research Opportunities Program, Office of the Vice President for Communications. 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. Experienced in computational physics, data analysis, machine . document.write(new Date().getFullYear()); 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. 1221 Beal Ave. Ann Arbor, MI 48109-2102 +1 (734) 647-7000 . When you have one of the world's best medical schools and the hub of a major university medical system literally across the street from a top engineering school, amazing things happen. Applications include renewable energy, disease transmission, and space exploration. 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: 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. Michigan Engineering. 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 Regents of the University of Michigan Ann Arbor, MI 48109 USA, Privacy Policy | It is time to apply for graduate school at U-M Mechanical Engineering. 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. Interaction between manufacturing process parameters and failure modes. View on Map. Mechanical Engineering 2023 SURE Research Projects - SURE SURE > Mechanical Engineering 2023 SURE Research Projects Contact Mary Saah Executive Assistant Office of Student Affairs maryms@umich.edu (734) 647-7118 143 Chrysler Center Mechanical Engineering 2023 SURE Research Projects ME Project #1: Dynamics of Piezoelectric Microsystems Work on challenging problems in an environment where a convergence of disciplines meet in one department. Ann Arbor MI 48109 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. 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. Research Interests: Automotive engineering, energy and thermal sciences including: fuel production and formulation, alternative fuels, diesel combustion, spark ignition combustion, autoignition, spray behavior, particulate emissions, NOx emissions, emissions control, thermodynamics of energy conversion systems. 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. Research Interests: Marine renewable energy (ocean waves, tidal currents, offshore wind), blue economy, energy harvesting, vibration/dynamics and control, mechatronics design, vehicles and transportation, and advanced manufacturing. Research Interests: 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. User facilities. Fax: 313-593-9967. umd-medept@umich.edu. 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. Dearborn, MI 48128. 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: 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. It is possible that they will reach out to you directly for further information. Michigan Engineering. Brown Laboratory Create smart machines. 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: 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. On Engineering Village platform, Compendex (Engineering Index) provides international coverage of engineering and appl. Mechanical Engineering Dr. Daly studies student and practitioner front-end design approaches and the integration of these more comprehensive skillsets into engineering. dtburke@umich.edu. 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. While primarily for first and second year students, there are a small number of opportunities for juniors and seniors. 4901 Evergreen Road. 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. Most mechanical engineering courses are worth 3 credits and on-campus sections are offered in the evening from 6-8:45 p.m. All classes are held Monday-Thursday. 4901 Evergreen Road. Maria Comninou Professor Emerita, Theoretical and Applied Mechanics Research Interests: Battery Modeling, Control and State of Health Estimation. Phone: (734) 764-2694, 2021 The Regents of the University of Michigan, Assistant Professor, 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. Specific research topics include. Previous Events. 2350 Hayward University of Michigan School of Medicine 1241 East Catherine Street Ann Arbor, MI 48109 . 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 For general questions, please feel free to contact us at SUREprogram@umich.edu Contact Mary Saah Executive Assistant Office of Student Affairs Brown Laboratory 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. Current research topics include the exploration of novel sensing and control techniques for improving the coordination and precision motion control of multiple systems. 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. 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.