umich mechanical engineering research umich mechanical engineering research

Prof. Kira Barton (bartonkl@umich.edu) received her B.S. Dearborn, MI 48128. Specific research topics include. 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. 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. Automotive Research Center Driving new performance and operation technologies for ground vehicles. All participants must apply online through the SURE website. 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. View on Map. NSF Engineering Research Center for Reconfigurable Manufacturing Systems Developing innovative systems to build high-quality, high-performance products The scientific goal is to better understand how interfaces deform under such accelerations and how rapidly the different fluids mix. These results will help create a design guide to inform future efforts in salt hydrate reactors.Research Mode: In-Lab, ME Project # 6: Life Cycle Assessments and Policies: Why It Matters for Hydrogen and Other FuelsFaculty Mentor: Volker Sick, vsick@umich.eduProject Description: The need for and interest in the production of hydrogen as well as fuels from carbon dioxide is increasing rapidly. Research Interests: Computational design. Depending on the students interests, the project may emphasize basic flow physics studies using large-scale numerical simulations, numerical methods development, and/or data-driven modeling/machine learning. Research Interests: 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. 2350 Hayward Research Interests: Computational mechanics; finite element methods; structural dynamics; flexible multibody dynamics; dynamic response of composites; vehicle dynamics; engineering mechanics education. . Research Interests: Energy storage and electrochemistry; simulation of nano/microstructure evolution; mechanics in nano/micro systems; advanced manufacturing; mechanical properties and performance of advanced materials and relation to microstructures. 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. 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. Driving new performance and operation technologies for ground vehicles. Looking to take another step forward in creating world-changing solutions? Mechanical Engineering. User facilities. Manufacturability-driven structural topology optimization. Research Associate Professor, Mechanical Engineering. Our campus is home to the worlds most powerful laser, ZEUS, a 32-acre proving ground for driverless technology, a two story earthquake lab, a robot playground and a 18,000 sq. Specifically we are working on computational fluid dynamics and computational materials modeling for additive manufacturing, welding, casting, powder metallurgy, and electrohydrodynamic printing processes. Professor, Biomedical Engineering . Fees. 4901 Evergreen Road. G.G. 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. Tomaz VUHERER, Head of welding laboratory | Cited by 27 | of University of Maribor, Maribor (UM) | Read 10 publications | Contact Tomaz VUHERER 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: Reconfigurable manufacturing systems; global manufacturing; flexible automation; sensing and controls of machining processes; generation of complex surfaces in CNC. Read more Realizing Breakthroughs Research Interests: Solid mechanics including thermoelasticity; elasticity; solidification; contact mechanics; tribology; elastodynamics, fracture; stability of thermoelastic contact; friction, contact of rough surfaces. G.G. 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. Our top ranked departments and programs are home to world-class facilities and instructors. Students may engage in the RISE program for one or several terms throughout their academic career. 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. Previous Events. 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. 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: Cavitation enabled therapy, Mechanics of soft and bio-materials, High speed rheometry, 3D bioprinting. Barton continued her education in mechanical engineering at the University of Illinois at Urbana-Champaign and completed her M.S. 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: Research focuses on biological and epidemiological systems, aerospace and automotive structures, and turbomachinery. Internal Number: 573629BR. NSF Engineering Research Center for Reconfigurable Manufacturing Systems 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. Mark Burns, Ph.D. Research Interests: Fluid mechanics, with an emphasis on multiphase flow, cavitation and bubble dynamics, computational fluid dynamics, high-speed flow and shock waves, turbulence and mixing, interfacial instabilities, plasmas, and high-performance computing. With the passage of the Infrastructure law and the inflation reduction act, the US now has several instruments in place to support the construction and operation of new production plants. Most awards will have multiple recipients. Research Interests: Structural dynamics and controls, including the emerging areas of intelligent structural & material systems harnessing origami dynamics, reconfigurable metamaterials/metastructures, and mechano-intelligence, with applications in vibration & noise controls, wave manipulation & steering, vibration energy harvesting, structural health monitoring, and vehicle & robotic system dynamics. 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? Current University of Michigan engineering students can complete both your bachelor's and master's degrees in only five years with SUGS by taking some graduate-level classes during your undergraduate years, so you can save yourself one semester and complete a master's with only two additional semesters. Mechanical Engineering Dr. Daly studies student and practitioner front-end design approaches and the integration of these more comprehensive skillsets into engineering. Research Interests: Lecturer with a focus in teaching dynamics and controls. As part of the team, the student involved will have an opportunity to learn various in vitro biology and imaging techniques. Interaction of business, product, and process in engineering systems. 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 . Tim Manganello/BorgWarner Department Chair, Mechanical Engineering. Design of machine components and systems. Library Webpages 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. 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: Design optimization; large scale system synthesis; automotive systems design, including hybrid vehicles; eco-design; product design. The University of Michigan is the best public school in the state and offers one of the best mechanical engineering programs in the country as a public school. For us, interdisciplinary collaboration comes naturally because it comes first. 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. 1241 East Catherine Street. Our research runs the gamut from basic to translational, with a well-developed tech transfer pipeline. Brown Laboratory 0 0. . SROP is supported by the Committee on Institutional Cooperation, a consortium of the Big Ten member universities and the University of Chicago. Contact: syadaval@umich.edu. Mechanical Engineering. Product development. Michigan BME not only enjoys the facilities and resources of a major research university, but also . 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. 1221 Beal Ave. Ann Arbor, MI 48109-2102 . 2023 Research Projects. The influence of production system approaches across industries. The program provides students with the opportunity to participate in research activities at a different university. Research Interests: Design, Fabrication, Control and Evaluation of Human Assist Devices, Gait Analysis, Biomechanics, Instrument Design. Research Interests: Battery Modeling, Control and State of Health Estimation. The program provides students with the opportunity to participate in research activities at a different university. 10 /10 placement. Research Interests: Thermal sciences, power systems, cryogenics, boiling heat transfer, superconducting power transmission. Research Interests: Dynamics including vibration and stability, nonlinear dynamics, experimental methods. Markov chain models, including the application of predictive control. Please visit the SROP website to learn more about the research opportunities and how to apply. Visit the RISE page for more information. Research Interests: Multi-sensor monitoring of manufacturing processes, specifically machining, welding, and laser processing; multiple-beam laser processing. Experienced in computational physics, data analysis, machine . 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. 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. Experimental results will be coupled with existing multi-physics models to gain fundamental insight into the limiting mechanisms that guide power output and cyclability. In the current process, the freezing usually starts from a stationary cold plate. With over 5 years of experience in the field, Mohammed has developed a . Thesis Defense: Tong Li. Teams of Michigan Engineers and collaborators are improving smart infrastructure, autonomous transportation, weather prediction, nuclear nonproliferation and more through our research centers. Ann Arbor MI 48109 Create smart machines. 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. Research Professor, Mechanical Engineering. 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. Mohammed Asaker is a highly driven Mechanical Engineer with a diverse background in Energy, Project Management, Research and Development. Research Interests: Control theory and engineering strategies in social systems to empower people and improve their well-being. Welcome to the Peripheral Neural Engineering and Urodynamics Lab (pNEURO Lab). 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. 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. undergoing large accelerations. New Student Scholarship This scholarship is designed for new students (first-year and transfer) admitted into a CIT major for the 23-24 Academic Year. While primarily for first and second year students, there are a small number of opportunities for juniors and seniors. Mechanical Design and Electrical Packaging for Server Racks and Power Distribution Systems: Common Platform Power Box . 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). Dr. Walker received his Ph.D. in Aerospace Engineering from the University of . More about our vision > Such systems will have profound implications in the future development of cell-based therapy. 4901 Evergreen Road. Mechanical engineers who have a positive impact on the world around them Read the full message from the chair 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. 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. 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: 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 Professor, Mechanical Engineering Research Professor, Internal Medicine Research Professor, Institute of Gerontology jaam@umich.edu (734) 763-2320 3443 G.G. Professor Emerita, Theoretical and Applied Mechanics. Please visit the, Transferring Credit from Another Institution, Summer Undergraduate Research in Engineering, Undergraduate Research Opportunities Program, Office of the Vice President for Communications. 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. Biomechanics Research Laboratory - Home for Biomechanics Research Laboratory Mechanical Engineering at the University of Michigan - Ann Arbor. Students who qualify are eligible for up to $500/semester (Fall/Winter) or a laptop. 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. Brown Laboratory Research Interests: Lecturer for ME 360 and ME 461. 2000 - Heinz Prechter Engineering Complex. With incomparable facilities, a great location and long-standing relationships with industry, were uniquely positioned to do research that cant be done anywhere else. 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. Prof. Kira Barton. Engineering is at the forefront of human progress and problem solving. ME x90 (290, 390, 490) are individual or group project work where students apply mechanical engineering principles to research, innovation, service or entrepreneurship projects. 3D printing software invented in ME lab and developed by Ulendo is able to print faster without sacrificing quality. We are interested in creating a synthetic cell that can secrete contents upon a stimulus. Research Interests: Optofluidics; Functional Nanomaterials; Bioinspired Active Optical System; Solar Optics Based Active Panel for Energy Harvesting and Storage: Integrated Molecular Detection System. Research Interests: Computational mechanics including mechanics of composite materials, structural design optimization, analysis of material processing; development of computational methods for composite mechanics using the homogenization method; topology and shape optimization of elastic structures; development of adaptive remesh methods for simulation of metal forming processes. Developing and applying optical measurement techniques to diagnose diseases of the human eye. It is possible that they will reach out to you directly for further information. His research interests include heat and mass transfer, phase-change (evaporation, condensation, freezing), water/fog harvesting, micro/nanoengineering, and fluid-structure interactions. Research Interests: Sensory augmentation, rehabilitation engineering, biomechanics, medical device design (emphasis on global health contexts and task-shifting devices), design science, engineering design education. 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. I have worked for quite a few years in mathematical biology, biophysics and materials physics. -Preparation of Design modifications and new designs for interior modifications for VIP and regular airline aircraft. The U-M Department of Mechanical Engineering is located on the University of Michigan's 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! 5945 Buhl Building. Michigan Mechanical Engineering is home to four fully-funded, world-class centers. EngineerJobs.com; Engineering job source providing fast loading and easily accessible listings from across the United States. 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. 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. 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. We share a campus with leaders in business, medical and liberal arts, whose expertise elevates our engineering research. 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. View on Map. 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. 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. 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. Motivating applications range from biomedical (cavitation-bubble dynamics in therapeutic ultrasound or traumatic brain injury) to energy (interfacial instabilities in inertial confinement fusion), from transportation (droplets dynamics in hypersonics, cavitation erosion in naval hydrodynamics) to astrophysics (vortex rings in supernovae).Research Mode: In-Lab, Remote, or Hybrid, ME Project #10: Shape Memory Alloys for Gripping Middle Ear ProsthesesFaculty Mentor: Karl Grosh, grosh@umich.edu, Project Description: The middle ear bones are the smallest bones in the human body (1 millimeter in diameter and ~10 millimeters long). Preferred Education: 4 Year Degree. 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. Students will have an opportunity to advance their academic and research skills by working one-on-one with a faculty mentor. Assistant Research Scientist, Mechanical Engineering. Research Interests: Manufacturing systems engineering. 10 /10 faculty. Research Interests: Energy justice and equity, sustainable energy and mobility systems, human-centered design methods, design needfinding, socially-engaged design, community engagement, optimization, cost modeling, agent-based modeling, uncertainty quantification, multi-attribute decision making, energy policy. 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: Understanding the inter-relationships between processing, alloying, microstructure and properties in metallic materials and in incorporating this knowledge into computational tools for use in research, education and engineering. 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. Products design for flexible manufacturing systems. Multi-Disciplined area in mechanical and computer engineering. Classes are available in the Fall (September-December), Winter (January-April), Summer I (May-June) and Summer II (July-August) terms.