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. 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! 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). The University of Michigan Department of Mechanical Engineering, 1231 Beal Avenue, 2007 W. E. Lay Automotive Laboratory, Ann Arbor, MI 48109-2133 Email: vsick@umich.edu BLUELab, Multidisciplinary Design Program, International Programs or the College of Engineering Honors Program). 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. Michigan Robotics | University of Michigan Work together. Research Interests: Research focuses on biological and epidemiological systems, aerospace and automotive structures, and turbomachinery. SAE Mobilus Includes access to SAE Technical Papers, SAE E-Books, and SAE Standards. You may apply for multiple awards. Markov chain models, including the application of predictive control. Teams of Michigan Engineers and collaborators are improving smart infrastructure, autonomous transportation, weather prediction, nuclear nonproliferation and more through our research centers. 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. Research Professor, Mechanical Engineering Research Professor, Internal Medicine Research Professor, Institute of Gerontology. 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. 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. Research Interests: Polymer-based photonic sensors and photoacoustics, organic and hybrid photovoltaics and photodetectors, flexible transparent conductors, nanophotonics & structural colors, nanomanufacturing technologies and applications. Internal Number: 573629BR. Phone: 313-593-5241. 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). Engineering Management - with a particular interest in product development. Specifically we are working on computational fluid dynamics and computational materials modeling for additive manufacturing, welding, casting, powder metallurgy, and electrohydrodynamic printing processes. 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. Research Interests: My research is interdisciplinary, using scholarship in education, engineering, and Black studies, I study methods of counteracting anti-Black racism within mechanical engineering study and practice. 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. 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. 2350 Hayward 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. 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. Course Duration. Applications to nonlinear dynamics of elastic cables, nonlinear fluid-structure interaction, DNA supercoiling, sports engineering, MEMS inertial sensor applications, vehicle systems, axially moving materials. 2515 BSRB 109 Zina Pitcher Pl, Ann Arbor, MI. 2000 - Heinz Prechter Engineering Complex. Explore BME Research. Bold ideas and noble failures engineering for the common good, We do not make or use technology in a way that is separate from the culture and society we are part of. 2000 - Heinz Prechter Engineering Complex. 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 Computational optimal synthesis of structural assemblies. 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. Product quality. 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. University of Michigan School of Medicine. COLLABORATION. All schools and colleges at U-M actively participate in UROP, so your research possibilities span the breadth of the entire university. Interaction between manufacturing process parameters and failure modes. Students will have an opportunity to advance their academic and research skills by working one-on-one with a faculty mentor. 1221 Beal Ave. Ann Arbor, MI 48109-2102 Phone: 313-593-5241. 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. Jun 2021 - Aug 20221 year 3 months. Mechanical Engineering; College of Engineering; University of Michigan; Barton Research Group. Any notification of an offer will be sent from the SUREManager. Impact of fuel properties and kinetics on engine efficiency and emissions. 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. 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. Simulations of spark ignited and advanced autoignition combustion modes using 1D models and 3D CFD including large scale parallel simulations. Product development. 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. UM-Flint's Mechanical Engineering program is accredited by the Engineering Accreditation Commission of ABET. 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.. 3D printing software invented in ME lab and developed by Ulendo is able to print faster without sacrificing quality. Our theoretical and experimental investigations are aimed at reducing the incidence of unintentional injuries in the population. The short list of our greatest strengths includes computing, energy and sustainability, manufacturing, precision medicine, robotics, security and space. 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. It is time to apply for graduate school at U-M Mechanical Engineering. 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. Students who qualify are eligible for up to $500/semester (Fall/Winter) or a laptop. 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? Office of the Vice President for Communications. Looking to take another step forward in creating world-changing solutions? 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. 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. 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. The University of Sheffield, Sheffield | UK Advanced Mechanical Engineering MSc. BREADTH. This unique experience teaches students to holistically connect all aspects of their UM life including coursework, co-curricular activities, and community to make a lasting difference in the world. Research Interests: Design optimization; large scale system synthesis; automotive systems design, including hybrid vehicles; eco-design; product design. 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. 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). Fax: 313-593-9967. umd-medept@umich.edu. Research Interests: Gender and Sexuality; Inequalities and Stratification; Sociology of Culture; Theory, Knowledge, and Science; Work, Economy, and Organizations; Mixed Methods; Sociology; Administration, Professor Emeritus, Mechanical Engineering. He was a postdoctoral associate at the Harvard University before moving to the University of Michigan. Research Interests: Mechanobiology and mechanotransduction, bottom-up synthetic biology, quantitative cell biology. 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. Deni KUSUMA | Cited by 1 | of State University of Malang, Malang (UM) | Read 3 publications | Contact Deni KUSUMA Projects include incremental forming of sheet metal and nano-particle additions to aluminum alloys. NSF Engineering Research Center for Reconfigurable Manufacturing Systems . Research Interests: Computational design. There are significant technical, financial, and regulatory barriers to overcome to build up the associated industry. My group works on a variety of applications including locomotion of legged robots, prosthetic control, autonomous vehicles, and soft robots. Campus Safety. 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.
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