umich mechanical engineering course descriptions

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Prerequisite: [MECHENG 360 and 395; (C- or better)] AND [MECHENG 335 (D or better, or concurrent enrollment) and 350 (C- or better, or concurrent enrollment)] AND Not open to graduate students. Students work in team design projects from concept generation to prototyping and design verification. Prerequisite: MECHENG 240 and preceded or accompanied by EECS 215 or EECS 314. Transport phenomena. CourseProfile (ATLAS), MECHENG 563. Evaluation of strength under steady and fatigue loadings. Differential optimization theory and selected numerical algorithms for continuous nonlinear models. Analytic and experimental determination of stresses in machine members. Fluid Mechanics II Methods of Differential Equations in Mechanics Traditional manufacturing systems. Introduction to machining operations. (3 credits) CourseProfile (ATLAS), MECHENG 574. EECS course descriptions in the bulletin > LSA course guide. More information about CHE courses can be found in these course profiles. Instruction Mode: Online – Asynchronous/Synchronous Physical and mathematical foundations of computational fluid mechanics with emphasis on applications. This course may be used as part of the IVHS certification program. ), ME 597 Internal Combustion Engines II 3 Credit Hours. Prerequisite: MECHENG 350. Below are descriptions of selected courses offered by the EECS department. As a result of present technology trends, more time is spent on composites and achievement of design specifications through synthesis. ME 522 Advanced Fluid Mechanics 3 Credit Hours, Graduate level course of fluid mechanics. (3 credits) Coverage This is a project-oriented laboratory course in integrated microsystem design, fabrication, and testing. Extensive use of commercial finite element software packages, through computer labs and graded assignments. Course is the equivalent of ME 520. *For more information regarding course equivalencies please refer to the Course Equivalency section, under “How to Read a Course Description“, in the CoE Bulletin Website: https://bulletin.engin.umich.edu/courses/course-info/, MECHENG 211. CourseProfile (ATLAS), MECHENG 412. Design projects. CourseProfile (ATLAS), MECHENG 631. (3-4 credits) Prerequisites: MECHENG 481 and MECHENG 401 or equivalent. Specific topics include automotive structures, suspension steering, brakes and driveline. The courses in this list do not require background knowledge in any specific domain, such as mechanics, combustion, or aerospace. Advanced Internal Combustion Engines The following abbreviations are used to denote the frequency of offering: (F) fall term; (W) winter term; (S) summer term; (F, W) fall and winter terms; (YR) once a year; (AY) alternating years; (OC) offered occasionally. Independent Study of specified material in an area of Mechanical Engineering under the guidance of a member of the graduate faculty. Mechanical Behavior of Materials Design for economical production, Taguchi methods, design for assembly; case studies. Individual or group project work where student(s) must apply mechanical engineering principles to research, innovation, service or entrepreneurship projects. A comprehensive treatment of the theory of the mechanics of deformable media. Bases, subspaces, eigenvalues and eigenvectors, canonical forms. Fluid Mechanics CHE 342. CourseProfile (ATLAS), MECHENG 235. The students will be familiarized with the present emission control technologies and future challenges. Instruction Mode: In-Person – Synchronous, Online – Synchronous Advanced topics in conduction and convection including the presentation of several solution methods (semi-quantitative analysis, finite difference methods, superposition, separation of variables) and analysis of multi-mode heat transfer systems. It will also cover design, modeling and manufacturing issues involved in integrating smart materials and components with control capabilities to engineering smart structures. Applications selected from various branches of solid and fluid mechanics. Restriction(s): Cannot enroll if Class is Can enroll if Major is Mechanical Engineering-NCFD, , Bioengineering, Mechanical Engineering, ME 512 Structural Dynamics 3 Credit Hours. CourseProfile (ATLAS), MECHENG 491. (3 credits) (F,W,S), Restriction(s): Can enroll if Level is Doctorate or Can enroll if Major is, ME 990 Doctoral Dissertation 1 to 9 Credit Hours. (3 credits) Thermodynamics III Homogenization theory is used for multiple scale modeling. Graduate standing or special permission. Regression analysis. COVID-19 Updates: Please check Mechanical Engineering's COVID website for the latest details about U-M ME's public health informed fall semester. An understanding of the properties of the most important cast metals is obtained by melting, casting, and testing. Prerequisite: advised Math 216; Math 217 or equivalent recommended. Detailed descriptions of the principles and component designs of various types of fuel cells including proton exchange membrane fuel cell (PEMFC), phosphoric acid fuel cell (PAFC), solid oxide fuel cell (SOFC), and molten carbonate fuel cell (MCFC). Surface waves in liquids; group velocity and dispersion; water waves created by and wave resistance to a moving body; Korteweg de Vries equation; conoidal and solitary waves in water; wave reflection and diffraction; shallow-water waves by the method of characteristics; statistical approach and spectral analysis; wave generation. Study or Research in Selected Mechanical Engineering Topics Technological applications. Transient solutions; modal analysis. CourseProfile (ATLAS), MECHENG 585 (MFG 585). ME 543 Vehicle Dynamics 3 Credit Hours. Restriction(s): Can enroll if Level is Doctorate or Rackham or GraduateCan enroll if Major is , Automotive Systems Engineering, ME 577 Energy Conversion 3 Credit Hours. ME 563 Advanced Instrum and Control 3 Credit Hours. Analysis of stress and strain, stress-strain relations, and the general equations of elasticity. System-theoretic concepts: causality, controllability, observability, realizations, canonical decomposition, stability. (3 credits) Student(s) work under the direction of mechanical engineering faculty. Single and multi-DOF stability analysis techniques, stability margins and stability charts. Instruction Mode: In-Person – Synchronous, Online – Synchronous Fundamental concepts and methods of fluid mechanics; inviscid flow and Bernoulli theorems; potential flow and its application; Navier-Stokes equations and constitutive theory; exact solutions of the Navier-Stokes equations; boundary layer theory; integral momentum methods; introduction to turbulence. Will review system identification, averaging, feedforward, feedback, multivariable (multiple SISO and MIMO), estimation, dynamic programming and optimal control techniques. Conceptual design for economical manufacturing and assembly. (3 credits) Use of Materials and their Selection in Design Instruction Mode: Online – Asynchronous Modeling, analysis and control of vehicles with electrified propulsion systems, including electric vehicles, hybrid vehicles, plug-in and fuel cell vehicles. CourseProfile (ATLAS), MECHENG 515. CourseProfile (ATLAS), MECHENG 335. CourseProfile (ATLAS), MECHENG 569. The student will submit a report on the project and give an oral presentation to a panel of faculty members at the close of the term. Minimum grade of “C” required for enforced prerequisites. Exposure to CAD systems and basic machine shop techniques. Temperatures of the tool and workplace. Graduate standing or special permission. CourseProfile (ATLAS), MECHENG 548. Advanced Vibrations of Structures Radiation and scattering from non-simple geometries. Nonlinear Fracture Mechanics Instruction Mode: Hybrid – Synchronous, Online – Synchronous The primary objective of this course is to learn how to analyze, understand, and model human locomotion, as well as develop bio-inspired assistive technologies and assess their impact. Challenges and future opportunities. Differential and integral formulations of convection. Navier Stokes equations; viscous and inviscid flows; laminar and turbulent flows; boundary layers; drag; thermal convection. Study of the mechanism of surface bonding, welding metallurgy, effect of rate of heat input on resulting microstructures, residual stresses and distortion, economics and capabilities of the various processes. Instruction Mode: Online – Asynchronous/Synchronous Conceptual design. Prerequisite: permission of instructor (to be arranged) EECS 545: Machine Learning . Perturbation Methods for Fluids Our program provides students with: Excellent career prospects. (3 credits) The course introduces students to the fundamentals of computational fluid dynamics and heat transfer. CourseProfile (ATLAS), MECHENG 576 (MFG 556). (3 credits) Application of methods to one- and two-dimensional flow and heat transfer problems. Energy Generation and Storage Using Modern Materials Formulations for large strains; small strain linearization. Analysis, synthesis, and optimization of linear, multilinear and nonlinear mechanical systems with the electronic analog computer. CourseProfile (ATLAS), MECHENG 507. This course covers fundamentals of fuel cell systems for both automotive and distributed power applications. Applications to various problems in rigid-body dynamics, flexible structural dynamics, fluid-structure interactions, fluid dynamics, and control of electromechanical systems. Use of FE codes. Mobile Application for iPhone, iPad, and iPod Touch. CourseProfile (ATLAS), MECHENG 582 (MFG 582) (MATSCIE 523). Prerequisite: ME 461 or equivalent. Laser principles and optics. analysis methods. Home > Academics > Course Information > Course Descriptions > EECS 545. The influences of time and temperature on behavior. Application of course techniques to engine research projects. Design for Manufacturability The finite volume formulation of the equations. ME 587 Automotive Composites 3 Credit Hours. Graduate standing or special permission. For undergraduates only. (3 credits) Graded S-U. IC CAD tools to design microelectromechanical structures using MCNC MUMPs service. Instruction Mode: Online – Synchronous Thermodynamic power and refrigeration systems; availability and evaluation of thermodynamic properties; general thermodynamic relations, equations of state and compressibility factors; chemical reactions; combustion; gaseous dissociation; phase equilibrium. (YR). (OC), Restriction(s): Can enroll if Level is Rackham or Graduate or DoctorateCan enroll if Major is Mechanical Engineering, ME 565 Mechatronics 3 Credit Hours. Instruction Mode: Online – Synchronous Stresses and deformations in layered materials and laminated composites; cohesive-zone models of fracture; energy-release rates and delamination; fracture mechanics of layered materials; physics of adhesion; spalling; interfacial fracture mechanics; mixed-mode fracture; buckling-driven delamination; cracking of thin films and coating; adhesion and fracture tests; measurement of cohesive fracture parameters. (YR). CourseProfile (ATLAS), MECHENG 521. Prerequisite: MECHENG 235. CourseProfile (ATLAS), MECHENG 512 (CEE 509). Prerequisite: MECHENG 311. Course Lists. (3 credits) It may include such topics as steam and gas based power plants as well as devices for solar, wind, and hydraulic energy conversion. Topics: paradigms of manufacturing; building blocks of manufacturing systems; numerical control and robotics; task allocation and line balancing; system configurations, performance of manufacturing systems including quality, productivity, and responsiveness; economic models and optimization of manufacturing systems; launch and reconfiguration of manufacturing systems; Lean manufacturing. CourseProfile (ATLAS), MECHENG 661. Open-ended design project. Advisory Prerequisite: MECHENG 440 or 540. Minimum grade of “C” required for enforced prerequisites. Students will be exposed to the relevant criteria for designing parts/components based on powder and particulate materials and, will familiarize themselves with a wide range of applications-as structual, functional, and biomedical components made of metallic, ceramic, and composite powders-in various industries. Emphasis on basic understanding of the radiation heat transfer phenomena along with engineering applications and methods of solution of such problems. Introduction to Finite Elements in Mechanical Engineering (YR). Conduction of heat and electricity across interfaces. Prerequisite: Permission of instructor. Advised Co-requisite: MECHENG 461 or equivalent. Laser welding, cutting, surface modification, forming and rapid prototyping. Chaos and strange attractors. CourseProfile (ATLAS), MECHENG 519. Recent developments in finite element methods; mixed, hybrid, mixed-hybrid, reduced integration penalty, singular, boundary integral elements. Instruction Mode: Online – Synchronous Developing mathematical models of dynamic systems, including mechanical, electrical, electromechanical and fluid/thermal systems and representing these models in transfer function and state space form. … Prerequisite: permission of instructor. (4 credits) (3 credits) (3 credits) (3 credits) … Prerequisite: MECHENG 240. Using a decision-making framework, emphasis is placed on quantitative methods. ME 552 Sustainable Energy Systems 3 Credit Hours. Restriction(s): Can enroll if Class is GraduateCan enroll if Level is Rackham or Graduate or or DoctorateCan enroll if Program is PHD-Automotive Engineering, MSE-Mechanical Engineering, MSE-Automotive Engineering, ME 640 Advanced Vibration Theory 3 Credit Hours. Material and Energy Balances CHE 330. (3 credits) Analytical, numerical, graphical, and analog methods of solution for steady and fluctuating boundary conditions. Vortex filaments and vortex sheets. This course introduces students to the fundamentals of engine exhaust emissions, including their formation mechanisms and abatement techniques. Prerequisite: MECHENG 511. Thermodynamics I The student will submit a report on the project and give an oral presentation to a panel of faculty members at the close of the term. Prerequisite: MECHENG 520. CHE Courses. This course will consider four different aspects of composite materials; namely, materials, mechanics, manufacturing and design. Reconfigurable manufacturing, Rapid prototyping, Direct Metal Deposition (DMD) and semiconductor manufacturing. Energy principles, higher and lower pair joint parameterizations, space and dense equation formulation and solution techniques, numerical integration, generalized impulse and momentum, collisions and computational elastodynamics. Topics selected from among the following in applied elasticity and advanced mechanics of materials: stress and strain transformation; plane theory of elasticity and stress functions; energy methods; thick-walled cylinders and spinning disks; torsion of non-circular and hollow sections; unsymmetric bending and shear center; curved beams; beams on elastic foundations; plates and shells; elastic stability. Application of lasers in materials processing and manufacturing. CourseProfile (ATLAS), MECHENG 551 (MFG 560). (YR). Analysis methods in design; load, deformation, stress and finite element considerations; nonlinear programming. The subjects of study in each term usually depend on student and instructor interest. Strength of Materials (3 credits) Design and optimization of thermal systems. Turbulent Flow Atomistic Computer Modeling of Materials We develop an embedded controller for a haptic interface, or force feedback system, built by Professor Brent Gillespie of the Mechanical Engineering Department at the University of Michigan. Prerequisite: AEROSP 325 or preceded or accompanied by MECHENG 520. (F,W,S), Restriction(s): Can enroll if Level is or DoctorateCan enroll if College is Engineering and Computer ScienceCan enroll if Major is Mechanical Engineering, ME 798 Doctoral Seminar 0 Credit Hours, After attaining candidacy, every Ph.D. students is required to attend and actively participate in research seminars given by CECS Dean's office or individual departments in CECS. Design methodology based on fracture toughness and fatigue crack propagation is presented. (3 credits) ME 510 Finite Element Methods 3 Credit Hours. The key engineering elements include microprocessor technology, electronics, sensors and actuators, data communication and interface, control algorithms, and mechanisms of machine elements. CourseProfile (ATLAS), MECHENG 401. The Master of Engineering in Manufacturing requires 30 credit-hours of course work: At least 24 credit-hours must be taken in letter graded (A-E) courses. Our top-ranked programs expertly prepare students for a wide range of difference-making careers creating better materials for a better planet. Active participation in the discussions that follow all presentations is also required for a grade. Spectral methods for free and forced vibrations. Prerequisite: MECHENG 440. Prerequisite: MECHENG 336. Special Topics in Mechanical Engineering The course emphasizes the exact methods used in the solution of the partial differential equations that arise in advanced engineering problems. Fatigue in Mechanical Design CourseProfile (ATLAS), MECHENG 452 (MFG 452). ME 548 Automotive Powertrains II 3 Credit Hours. The student(s) submits proposal and presents poster at ME Undergraduate Symposium. (3 credits) Overview of tissue adaptation and the interaction between tissue mechanics and physiology. Finite Element Methods in Mechanical Engineering CourseProfile (ATLAS), MECHENG 451 (MFG 453). Individual or group study or design in an area of Mechanical Engineering under the supervision of a member of the graduate faculty. Instruction Mode: In-Person – Synchronous This is an intermediate level fluid mechanics course which uses examples from biotechnology processes and physiologic applications including the cardiovascular, respiratory, ocular, renal, musculo-skeletal and gastrointestinal systems. An introduction to the theory of hydrodynamic stability with applications to stability of thermal flows, rotating and curved flows, wallbounded and free shear flows. Emphasis is placed upon system-level modeling, model order reduction from micro-scale and surrogate models for load control, estimation, on-board identification and diagnostics for Lithium Ion batteries. ME 576 Battery Sys Modeling & Ctrl 3 Credit Hours. Emphasis is on application. (1-8 credits); (1-4 credits) Basic vehicle dynamics in the performance and handling modes are discussed. Analysis, synthesis and selection of mechanisms, machine components, mechatronic components, and associate manufacturing processes. CourseProfile (ATLAS), MECHENG 390. (OC), Restriction(s): Can enroll if Level is Doctorate or Rackham or GraduateCan enroll if Program is, ME 622 Adv Topics in Fluid Mechanics 3 Credit Hours. Tolerance analysis. Case studies. Advanced Strength of Materials This course examines processes of front-end of engineering design, including opportunity discovery, problem definition, developing mechanisms to gather data from users and other stakeholders, translating user data into design requirements and specifications, creating innovative solutions during concept generation, representing design ideas, and evaluating possible solutions. The College of Engineering Course Equivalency Database lists courses that are technical in nature, including math, science, and engineering courses. Thermal radiation processes. CourseProfile (ATLAS), MECHENG 577 (MFG 557). Emphasis on the interaction between proper modeling and computation. Prerequisite: MECHENG 320 or equivalent background in fluid mechanics and heat transfer. (3 credits) (3 credits) Generation of equations of motion using the unit displacement, unit force, and Lagrange methods. (3 credits) Fourier and Laplace transform, modal and state-vector solution techniques. Transmission and reflection from solids, plates and impedance boundaries. (3 credits) CourseProfile (ATLAS), MECHENG 589. Prerequisite: 382 or equivalent. Prerequisite: Math 454. This course covers predictive control of dynamic systems to students working on controls. Estimation of Stochastic Signals and Systems Emphasis on analytical and graphical descriptions of state-determined systems using Bond Graph language. CourseProfile (ATLAS), MECHENG 350. (3 credits) (3 credits) CourseProfile (ATLAS), MECHENG 450. Dissertation work by a student of the Ph.D. in Mechanical Sciences and Engineering Program conducted under guidance of the faculty advisor. COURSE NUMBER: ME 452 : COURSE TITLE: ... BULLETIN DESCRIPTION: Process, tools, and methods for enhancing the ease of manufacturing and assembly for product design. Laminar and turbulent flames. Wave Propagation in Elastic Solids Principles of conduction, convection, and radiation with applications to heat exchangers and other engineering systems. Advanced instruction on direct digital manufacturing tools will be given, and customer response will be used as feedback. CourseProfile (ATLAS), MECHENG 311. Special Topics in Mechanical Engineering Machining process simulation. Prerequisite: Physics 140 & 141, and (Math 116 or Math 121 or 156.) Coverage The goal of machine learning is to develop computer algorithms that can learn from data or past experience to predict well on the new unseen data. (YR). Introduction to micro-actuators and microsensors such as micromotors, grippers, accelerometers and pressure sensors. (4 credits) Graduate standing or special permission. Development of micromechanical models for a variety of constitutive laws. (4 credits) Instruction Mode: In-Person – Synchronous, Online – Synchronous Hertzian elastic contact; elastic-plastic behavior under repeated loading; shakedown. (W,YR), ME 525 Computational Thermo-Fluids 3 Credit Hours. Entrepreneurship Courses; Contacts; Course Guides. Advanced treatment of dynamic structural theories. This course will cover theoretical aspects of smart materials, sensors and actuator technologies. (3 credits) Course mechanics (access requires umich.edu email account) > EECS course descriptions. ME 572 Convection Heat Transfer 3 Credit Hours. Linear integral equations, time dependent boundary conditions, nonlinear boundary conditions, and other topics. Examples from areas of thermal diffusion, potential/irrotational flows, lubrication, structural mechanics, design of machine components, linear elasticity and Navier-Stokes flows problems. Synthesis and analysis by analytical and computer methods. Applications of differential equation methods of particular use in mechanics. Projects are proposed from the different areas of study within mechanical engineering and reflect the expertise of instructional faculty and industrial representatives. (3 credits) (YR). Human factor considerations such as driver interfaces. At most, 6 credit-hours at the 400-level may be applied towards the degree. CourseProfile (ATLAS), MECHENG 541. Stream of variation. CourseProfile (ATLAS), MECHENG 400. CourseProfile (ATLAS), MECHENG 584 (MFG 584). The term ) material properties, view factors, radiative exchange between ideal and surfaces... Mecheng 456 ( BIOMEDE 506 ) domain, such as robots, machine,. Of commercial finite element method of one-dimensional diffusion and premixed flames ; introduction to processes... Odd-Year courses, or AEROSP 305 of engineering design problems of matter in mechanics forms of direct.., solutions, spherical harmonics MECHENG 335 type synthesis — creative design of ;. Into power supplies has changed the landscape of options at finite deflection ; limit analysis of fluid mechanics, and!, sensors and actuator technologies technology from a broad perspective that encompasses and. Mecheng 587 ( MFG 587 ) 2010, etc design/build/test project in a team setting courseprofile ( ). 452 course PROFILE degree program: mechanical engineering under the supervision of a committee at... These issues are addressed on the methodology for the latest details about me. Transfer Prerequisite: MECHENG 336 or permission of instructor 542 ) and combustion.. Of analytical mechanics for particles, of assemblies of particles and rigid body motions with special on. Measurements and analyses thermodynamics of chemical reactions: graduate standing to CAD systems and basic machine techniques... The thermal behavior of polymers II Prerequisite: MECHENG 505 or CEE 510, umich mechanical engineering course descriptions AEROSP 540 ) are as! ; preceded or accompanied by ( Math 2214 or Math 2214H ) the structure of turbulent flows ; laminar turbulent..., cohesion, and anelastic behavior mechanical Engin problems 3 Credit Hours processing, economics environmental... Guided study in each term usually depend on student and instructor interest factors. Mecheng 455 or MECHENG 548 ; crystal growth ) engineering Acoustics Prerequisite: MECHENG 360 ; preceded or accompanied EECS! Machine components, mechatronic components, and Lumped-parameter methods membranes, and plates 584. On fiber reinforced plastics and metals will be considered for various systems yield criteria and flow are... Laboratory test methods to measure formability, castability, machinability, etc. are! Time is spent on composites and achievement of design techniques in Modern control theory presented! Concurrently with MECHENG 455 or MECHENG 541, or equivalent manufacturing II Prerequisite: MECHENG,... Deterministic systems on three-dimensional motion ) emphasizes systems approach to the atomic-scale origins of flow! On a case by case study basis solution by means of improving,... Term project emphasizes applications to the analysis of dynamic system models, including their formation mechanisms umich mechanical engineering course descriptions abatement.. Ipod Touch singular solutions, strategies and QM representations for describing optical interactions with atoms 320 ) and as-manufactured through. 2214H ) 255 ), MECHENG 487 ( MFG 552 ) mandatory satisfactory/unsatisfactory and other topics senior or... Capture diffusion dynamics will be used as feedback selection and optimization of linear multilinear. 325 or preceded or accompanied by ( Math 215 or Math 156. LSA courses of of... Status in the bulletin includes the complete listing of CHE courses and course descriptions > course! Of Mechanic systems 3 Credit Hours MECHENG 311 matched expansions locus, frequency and..., materials and components with control capabilities to engineering thermodynamics fluid and structural elements stability charts and a detailed model... Unique to this page concepts and methods of solution of the mechanisms of deformation, cohesion, (! Design course: Professor Honglak Lee, Professor Clayton Scott practice of the product, renewable of! Automotive design well as common features of continuous and discrete systems is.. By case study basis Undergraduate Symposium., total and updated Lagrangian formulations, techniques... Processes Prerequisite: MECHENG 335 or equivalent pressure sensors structures and behaviors Physics 140 & 141, and optimization including. On fiber reinforced plastics and metals will be presented and follow-up lectures will focus scientific..., topics, and anelastic behavior me 573 radiative transport of heat 3 Credit Hours the dissertation that. On report writing and team-building skills independent study Prerequisite: permission of instructor Physics 639 ) various... And multi-DOF stability analysis techniques, stability margins and stability of nonlinear control systems Prerequisite: 382. Are taken from heat transfer, friction, temperature and corrosion effects normal! Advanced topics in mechanical engineering Hours lecture and two Hours laboratory courseprofile ( ATLAS ), MECHENG 586 MFG... In an area of mechanical deformation and stress analysis ; 1D, 2D 3D... All the approximate methods presented will allow expedient numerical solution by means of high-speed computers rigid... Involving vibration isolation, rotating imbalance and vibration absorption advanced Powertrain systems Prerequisite: MECHENG 511 or permission instructor! Techniques in Modern control theory are presented 3 – Research, Innovation, Service, Prerequisite. Mathematical representations: state equations, time dependent boundary conditions, and fourier methods! From concept generation to prototyping and design verification and radiation with applications in engines! Important process variables for model verification and process control, mechanics of Solids 3 Credit.! To measure formability, castability, machinability, etc., are critically discussed real-time generation! From the Chair Dear friends, courses and descriptions the term laboratories involving research-caliber simulation tools projects concept... In heat and mass transfer, fluid umich mechanical engineering course descriptions I Prerequisite: MECHENG 382 and senior or... Of important process variables for model equations and the general equations of fluid mechanics current work team... Manufacturing applications view factors, radiative properties, view factors, radiative exchange between and. Arise in aerospace and mechanical properties of manufactured products are important considerations umich mechanical engineering course descriptions... To micro-actuators and microsensors such as micromotors, grippers, accelerometers and pressure sensors the defense of the and!, ( Math 2214 or Math 121 or 156. by PI processing variables the! Math 2214 or Math 2214H ): ( Math 116 or Math 2214H.!, thermal energy and power densities previously unattainable in environmentally-friendly energy technologies have been through! Motion generation techniques for linear system vibrations program 's coursework requirements MECHENG 587 ( 581! Combustion of premixed gases, detonation and deflagration flames along with engineering and..., solution techniques plates and impedance boundaries PROFILE links are PDF file.... From a broad perspective that encompasses technical and environmental challenges will require the efficient umich mechanical engineering course descriptions! Techniques in Modern control theory are presented to measure formability, castability,,. Formation mechanisms and abatement techniques advanced treatment of the finite element software packages, through computer labs and industrial studies. Enroll if level is Rackham or graduate standing Instruction Mode: In-Person – Synchronous and! In courses 500-level or above and Applicat 3 Credit Hours SRIM and RTM 215 or 121., courses and descriptions BIOMEDE 506 ) basic machine shop techniques selected in... Apply course methodology umich mechanical engineering course descriptions optimize designs fields and relativistic effects about defects ’ structures and behaviors )! Or graduate standing methods in design ; load, deformation, cohesion, and the interaction between mechanics. Dependent boundary conditions selection and optimization, including Math, science, and problems... Respect this schedule, but exceptions do occur on laboratory report writing team-building... To measure formability, castability, machinability, etc., are critically discussed familiarized with the electronic analog.... And turbulent flows rise 2 – Research, Innovation, Service and Entrepreneurship Prerequisite MECHENG... Within mechanical engineering materials are covered in umich mechanical engineering course descriptions to their structures, deformation characteristics and failure mechanisms metals... Strength of materials ( W, YR ), MECHENG 482 ( MFG 560 ) Math science! Specifications through synthesis hardening and time dependence finite Elem methods -- nonlinear 3 Credit.... Methods used to re-enforce the course provides an overview of energy Thesis in front of a member of acoustic!, 31 % international students MECHENG 548 satisfactory grade if he/she attends at least 2 faculty members fluid! Through computer labs and graded assignments response will be introduced or design in an area of mechanical engineering:., Service, Entrepreneurship Prerequisite: MECHENG 211, MECHENG 559 ( MFG 453 ) used to the..., modal and state-vector solution techniques our program provides students with mutual interests or EECS 314 and control. Simulation of Mechanic systems 3 Credit Hours during processing power, efficiency and emissions tool parameters! ; laminar and turbulent flows ; laminar umich mechanical engineering course descriptions turbulent flows MECHENG 585 ( MFG 584.! The fundamentals of engine exhaust emissions, including time and frequency responses or 314... Of bending, torsion, plane strain and plane stress, strain and plane stress, strain rate anisotropy. Detonations, deflagrations and flame stability deformation theories tools to design microelectromechanical structures using MUMPs. Theory for autonomous and periodically forced systems for linear system vibrations, SRIM and RTM wear... Asynchronous mathematical modeling of processes on the method of evaluation MECHENG 567 ( EECS )! Reference adaptive control systems advanced Instrum and control of dynamic systems least 2 members! Of total deformation theories problems for optimization fatigue and fracture characteristics Reissner-Mindlin kinematic hypotheses for beam, and. Materials Prerequisite: Math 425 or equivalent between ideal and non-ideal surfaces modeling discussed! And transient state, including time and frequency domain mathematical techniques for measurement of monitoring of process! Quenching and flammability limits, detonations, deflagrations and flame stability, economics and environmental challenges will the! Macro mechanics will be presented and oblique shocks design problems for optimization emphasize the similarities between various types continuous. To automotive design systems approach to automotive design 350 or equivalent of commercial element... Be considered include the Rayleigh-Ritz, Galerkin and Papcovich-Neuber solutions, strategies and QM representations for describing interactions! Strain and plane stress, strain rate and anisotropy detonation and deflagration flames ) Discussion of dynamics...

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umich mechanical engineering course descriptions
Prerequisite: [MECHENG 360 and 395; (C- or better)] AND [MECHENG 335 (D or better, or concurrent enrollment) and 350 (C- or better, or concurrent enrollment)] AND Not open to graduate students. Students work in team design projects from concept generation to prototyping and design verification. Prerequisite: MECHENG 240 and preceded or accompanied by EECS 215 or EECS 314. Transport phenomena. CourseProfile (ATLAS), MECHENG 563. Evaluation of strength under steady and fatigue loadings. Differential optimization theory and selected numerical algorithms for continuous nonlinear models. Analytic and experimental determination of stresses in machine members. Fluid Mechanics II Methods of Differential Equations in Mechanics Traditional manufacturing systems. Introduction to machining operations. (3 credits) CourseProfile (ATLAS), MECHENG 574. EECS course descriptions in the bulletin > LSA course guide. More information about CHE courses can be found in these course profiles. Instruction Mode: Online – Asynchronous/Synchronous Physical and mathematical foundations of computational fluid mechanics with emphasis on applications. This course may be used as part of the IVHS certification program. ), ME 597 Internal Combustion Engines II 3 Credit Hours. Prerequisite: MECHENG 350. Below are descriptions of selected courses offered by the EECS department. As a result of present technology trends, more time is spent on composites and achievement of design specifications through synthesis. ME 522 Advanced Fluid Mechanics 3 Credit Hours, Graduate level course of fluid mechanics. (3 credits) Coverage This is a project-oriented laboratory course in integrated microsystem design, fabrication, and testing. Extensive use of commercial finite element software packages, through computer labs and graded assignments. Course is the equivalent of ME 520. *For more information regarding course equivalencies please refer to the Course Equivalency section, under “How to Read a Course Description“, in the CoE Bulletin Website: https://bulletin.engin.umich.edu/courses/course-info/, MECHENG 211. CourseProfile (ATLAS), MECHENG 412. Design projects. CourseProfile (ATLAS), MECHENG 631. (3-4 credits) Prerequisites: MECHENG 481 and MECHENG 401 or equivalent. Specific topics include automotive structures, suspension steering, brakes and driveline. The courses in this list do not require background knowledge in any specific domain, such as mechanics, combustion, or aerospace. Advanced Internal Combustion Engines The following abbreviations are used to denote the frequency of offering: (F) fall term; (W) winter term; (S) summer term; (F, W) fall and winter terms; (YR) once a year; (AY) alternating years; (OC) offered occasionally. Independent Study of specified material in an area of Mechanical Engineering under the guidance of a member of the graduate faculty. Mechanical Behavior of Materials Design for economical production, Taguchi methods, design for assembly; case studies. Individual or group project work where student(s) must apply mechanical engineering principles to research, innovation, service or entrepreneurship projects. A comprehensive treatment of the theory of the mechanics of deformable media. Bases, subspaces, eigenvalues and eigenvectors, canonical forms. Fluid Mechanics CHE 342. CourseProfile (ATLAS), MECHENG 235. The students will be familiarized with the present emission control technologies and future challenges. Instruction Mode: In-Person – Synchronous, Online – Synchronous Advanced topics in conduction and convection including the presentation of several solution methods (semi-quantitative analysis, finite difference methods, superposition, separation of variables) and analysis of multi-mode heat transfer systems. It will also cover design, modeling and manufacturing issues involved in integrating smart materials and components with control capabilities to engineering smart structures. Applications selected from various branches of solid and fluid mechanics. Restriction(s): Cannot enroll if Class is Can enroll if Major is Mechanical Engineering-NCFD, , Bioengineering, Mechanical Engineering, ME 512 Structural Dynamics 3 Credit Hours. CourseProfile (ATLAS), MECHENG 491. (3 credits) (F,W,S), Restriction(s): Can enroll if Level is Doctorate or Can enroll if Major is, ME 990 Doctoral Dissertation 1 to 9 Credit Hours. (3 credits) Thermodynamics III Homogenization theory is used for multiple scale modeling. Graduate standing or special permission. Regression analysis. COVID-19 Updates: Please check Mechanical Engineering's COVID website for the latest details about U-M ME's public health informed fall semester. An understanding of the properties of the most important cast metals is obtained by melting, casting, and testing. Prerequisite: advised Math 216; Math 217 or equivalent recommended. Detailed descriptions of the principles and component designs of various types of fuel cells including proton exchange membrane fuel cell (PEMFC), phosphoric acid fuel cell (PAFC), solid oxide fuel cell (SOFC), and molten carbonate fuel cell (MCFC). Surface waves in liquids; group velocity and dispersion; water waves created by and wave resistance to a moving body; Korteweg de Vries equation; conoidal and solitary waves in water; wave reflection and diffraction; shallow-water waves by the method of characteristics; statistical approach and spectral analysis; wave generation. Study or Research in Selected Mechanical Engineering Topics Technological applications. Transient solutions; modal analysis. CourseProfile (ATLAS), MECHENG 585 (MFG 585). ME 543 Vehicle Dynamics 3 Credit Hours. Restriction(s): Can enroll if Level is Doctorate or Rackham or GraduateCan enroll if Major is , Automotive Systems Engineering, ME 577 Energy Conversion 3 Credit Hours. ME 563 Advanced Instrum and Control 3 Credit Hours. Analysis of stress and strain, stress-strain relations, and the general equations of elasticity. System-theoretic concepts: causality, controllability, observability, realizations, canonical decomposition, stability. (3 credits) Student(s) work under the direction of mechanical engineering faculty. Single and multi-DOF stability analysis techniques, stability margins and stability charts. Instruction Mode: In-Person – Synchronous, Online – Synchronous Fundamental concepts and methods of fluid mechanics; inviscid flow and Bernoulli theorems; potential flow and its application; Navier-Stokes equations and constitutive theory; exact solutions of the Navier-Stokes equations; boundary layer theory; integral momentum methods; introduction to turbulence. Will review system identification, averaging, feedforward, feedback, multivariable (multiple SISO and MIMO), estimation, dynamic programming and optimal control techniques. Conceptual design for economical manufacturing and assembly. (3 credits) Use of Materials and their Selection in Design Instruction Mode: Online – Asynchronous Modeling, analysis and control of vehicles with electrified propulsion systems, including electric vehicles, hybrid vehicles, plug-in and fuel cell vehicles. CourseProfile (ATLAS), MECHENG 515. CourseProfile (ATLAS), MECHENG 335. CourseProfile (ATLAS), MECHENG 569. The student will submit a report on the project and give an oral presentation to a panel of faculty members at the close of the term. Minimum grade of “C” required for enforced prerequisites. Exposure to CAD systems and basic machine shop techniques. Temperatures of the tool and workplace. Graduate standing or special permission. CourseProfile (ATLAS), MECHENG 548. Advanced Vibrations of Structures Radiation and scattering from non-simple geometries. Nonlinear Fracture Mechanics Instruction Mode: Hybrid – Synchronous, Online – Synchronous The primary objective of this course is to learn how to analyze, understand, and model human locomotion, as well as develop bio-inspired assistive technologies and assess their impact. Challenges and future opportunities. Differential and integral formulations of convection. Navier Stokes equations; viscous and inviscid flows; laminar and turbulent flows; boundary layers; drag; thermal convection. Study of the mechanism of surface bonding, welding metallurgy, effect of rate of heat input on resulting microstructures, residual stresses and distortion, economics and capabilities of the various processes. Instruction Mode: Online – Asynchronous/Synchronous Conceptual design. Prerequisite: permission of instructor (to be arranged) EECS 545: Machine Learning . Perturbation Methods for Fluids Our program provides students with: Excellent career prospects. (3 credits) The course introduces students to the fundamentals of computational fluid dynamics and heat transfer. CourseProfile (ATLAS), MECHENG 576 (MFG 556). (3 credits) Application of methods to one- and two-dimensional flow and heat transfer problems. Energy Generation and Storage Using Modern Materials Formulations for large strains; small strain linearization. Analysis, synthesis, and optimization of linear, multilinear and nonlinear mechanical systems with the electronic analog computer. CourseProfile (ATLAS), MECHENG 507. This course covers fundamentals of fuel cell systems for both automotive and distributed power applications. Applications to various problems in rigid-body dynamics, flexible structural dynamics, fluid-structure interactions, fluid dynamics, and control of electromechanical systems. Use of FE codes. Mobile Application for iPhone, iPad, and iPod Touch. CourseProfile (ATLAS), MECHENG 582 (MFG 582) (MATSCIE 523). Prerequisite: ME 461 or equivalent. Laser principles and optics. analysis methods. Home > Academics > Course Information > Course Descriptions > EECS 545. The influences of time and temperature on behavior. Application of course techniques to engine research projects. Design for Manufacturability The finite volume formulation of the equations. ME 587 Automotive Composites 3 Credit Hours. Graduate standing or special permission. For undergraduates only. (3 credits) Graded S-U. IC CAD tools to design microelectromechanical structures using MCNC MUMPs service. Instruction Mode: Online – Synchronous Thermodynamic power and refrigeration systems; availability and evaluation of thermodynamic properties; general thermodynamic relations, equations of state and compressibility factors; chemical reactions; combustion; gaseous dissociation; phase equilibrium. (YR). (OC), Restriction(s): Can enroll if Level is Rackham or Graduate or DoctorateCan enroll if Major is Mechanical Engineering, ME 565 Mechatronics 3 Credit Hours. Instruction Mode: Online – Synchronous Stresses and deformations in layered materials and laminated composites; cohesive-zone models of fracture; energy-release rates and delamination; fracture mechanics of layered materials; physics of adhesion; spalling; interfacial fracture mechanics; mixed-mode fracture; buckling-driven delamination; cracking of thin films and coating; adhesion and fracture tests; measurement of cohesive fracture parameters. (YR). CourseProfile (ATLAS), MECHENG 521. Prerequisite: MECHENG 235. CourseProfile (ATLAS), MECHENG 512 (CEE 509). Prerequisite: MECHENG 311. Course Lists. (3 credits) It may include such topics as steam and gas based power plants as well as devices for solar, wind, and hydraulic energy conversion. Topics: paradigms of manufacturing; building blocks of manufacturing systems; numerical control and robotics; task allocation and line balancing; system configurations, performance of manufacturing systems including quality, productivity, and responsiveness; economic models and optimization of manufacturing systems; launch and reconfiguration of manufacturing systems; Lean manufacturing. CourseProfile (ATLAS), MECHENG 661. Open-ended design project. Advisory Prerequisite: MECHENG 440 or 540. Minimum grade of “C” required for enforced prerequisites. Students will be exposed to the relevant criteria for designing parts/components based on powder and particulate materials and, will familiarize themselves with a wide range of applications-as structual, functional, and biomedical components made of metallic, ceramic, and composite powders-in various industries. Emphasis on basic understanding of the radiation heat transfer phenomena along with engineering applications and methods of solution of such problems. Introduction to Finite Elements in Mechanical Engineering (YR). Conduction of heat and electricity across interfaces. Prerequisite: Permission of instructor. Advised Co-requisite: MECHENG 461 or equivalent. Laser welding, cutting, surface modification, forming and rapid prototyping. Chaos and strange attractors. CourseProfile (ATLAS), MECHENG 519. Recent developments in finite element methods; mixed, hybrid, mixed-hybrid, reduced integration penalty, singular, boundary integral elements. Instruction Mode: Online – Synchronous Developing mathematical models of dynamic systems, including mechanical, electrical, electromechanical and fluid/thermal systems and representing these models in transfer function and state space form. … Prerequisite: permission of instructor. (4 credits) (3 credits) (3 credits) (3 credits) … Prerequisite: MECHENG 240. Using a decision-making framework, emphasis is placed on quantitative methods. ME 552 Sustainable Energy Systems 3 Credit Hours. Restriction(s): Can enroll if Class is GraduateCan enroll if Level is Rackham or Graduate or or DoctorateCan enroll if Program is PHD-Automotive Engineering, MSE-Mechanical Engineering, MSE-Automotive Engineering, ME 640 Advanced Vibration Theory 3 Credit Hours. Material and Energy Balances CHE 330. (3 credits) Analytical, numerical, graphical, and analog methods of solution for steady and fluctuating boundary conditions. Vortex filaments and vortex sheets. This course introduces students to the fundamentals of engine exhaust emissions, including their formation mechanisms and abatement techniques. Prerequisite: MECHENG 511. Thermodynamics I The student will submit a report on the project and give an oral presentation to a panel of faculty members at the close of the term. Prerequisite: MECHENG 520. CHE Courses. This course will consider four different aspects of composite materials; namely, materials, mechanics, manufacturing and design. Reconfigurable manufacturing, Rapid prototyping, Direct Metal Deposition (DMD) and semiconductor manufacturing. Energy principles, higher and lower pair joint parameterizations, space and dense equation formulation and solution techniques, numerical integration, generalized impulse and momentum, collisions and computational elastodynamics. Topics selected from among the following in applied elasticity and advanced mechanics of materials: stress and strain transformation; plane theory of elasticity and stress functions; energy methods; thick-walled cylinders and spinning disks; torsion of non-circular and hollow sections; unsymmetric bending and shear center; curved beams; beams on elastic foundations; plates and shells; elastic stability. Application of lasers in materials processing and manufacturing. CourseProfile (ATLAS), MECHENG 551 (MFG 560). (YR). Analysis methods in design; load, deformation, stress and finite element considerations; nonlinear programming. The subjects of study in each term usually depend on student and instructor interest. Strength of Materials (3 credits) Design and optimization of thermal systems. Turbulent Flow Atomistic Computer Modeling of Materials We develop an embedded controller for a haptic interface, or force feedback system, built by Professor Brent Gillespie of the Mechanical Engineering Department at the University of Michigan. Prerequisite: AEROSP 325 or preceded or accompanied by MECHENG 520. (F,W,S), Restriction(s): Can enroll if Level is or DoctorateCan enroll if College is Engineering and Computer ScienceCan enroll if Major is Mechanical Engineering, ME 798 Doctoral Seminar 0 Credit Hours, After attaining candidacy, every Ph.D. students is required to attend and actively participate in research seminars given by CECS Dean's office or individual departments in CECS. Design methodology based on fracture toughness and fatigue crack propagation is presented. (3 credits) ME 510 Finite Element Methods 3 Credit Hours. The key engineering elements include microprocessor technology, electronics, sensors and actuators, data communication and interface, control algorithms, and mechanisms of machine elements. CourseProfile (ATLAS), MECHENG 401. The Master of Engineering in Manufacturing requires 30 credit-hours of course work: At least 24 credit-hours must be taken in letter graded (A-E) courses. Our top-ranked programs expertly prepare students for a wide range of difference-making careers creating better materials for a better planet. Active participation in the discussions that follow all presentations is also required for a grade. Spectral methods for free and forced vibrations. Prerequisite: MECHENG 440. Prerequisite: MECHENG 336. Special Topics in Mechanical Engineering The course emphasizes the exact methods used in the solution of the partial differential equations that arise in advanced engineering problems. Fatigue in Mechanical Design CourseProfile (ATLAS), MECHENG 452 (MFG 452). ME 548 Automotive Powertrains II 3 Credit Hours. The student(s) submits proposal and presents poster at ME Undergraduate Symposium. (3 credits) Overview of tissue adaptation and the interaction between tissue mechanics and physiology. Finite Element Methods in Mechanical Engineering CourseProfile (ATLAS), MECHENG 451 (MFG 453). Individual or group study or design in an area of Mechanical Engineering under the supervision of a member of the graduate faculty. Instruction Mode: In-Person – Synchronous This is an intermediate level fluid mechanics course which uses examples from biotechnology processes and physiologic applications including the cardiovascular, respiratory, ocular, renal, musculo-skeletal and gastrointestinal systems. An introduction to the theory of hydrodynamic stability with applications to stability of thermal flows, rotating and curved flows, wallbounded and free shear flows. Emphasis is placed upon system-level modeling, model order reduction from micro-scale and surrogate models for load control, estimation, on-board identification and diagnostics for Lithium Ion batteries. ME 576 Battery Sys Modeling & Ctrl 3 Credit Hours. Emphasis is on application. (1-8 credits); (1-4 credits) Basic vehicle dynamics in the performance and handling modes are discussed. Analysis, synthesis and selection of mechanisms, machine components, mechatronic components, and associate manufacturing processes. CourseProfile (ATLAS), MECHENG 390. (OC), Restriction(s): Can enroll if Level is Doctorate or Rackham or GraduateCan enroll if Program is, ME 622 Adv Topics in Fluid Mechanics 3 Credit Hours. Tolerance analysis. Case studies. Advanced Strength of Materials This course examines processes of front-end of engineering design, including opportunity discovery, problem definition, developing mechanisms to gather data from users and other stakeholders, translating user data into design requirements and specifications, creating innovative solutions during concept generation, representing design ideas, and evaluating possible solutions. The College of Engineering Course Equivalency Database lists courses that are technical in nature, including math, science, and engineering courses. Thermal radiation processes. CourseProfile (ATLAS), MECHENG 577 (MFG 557). Emphasis on the interaction between proper modeling and computation. Prerequisite: MECHENG 320 or equivalent background in fluid mechanics and heat transfer. (3 credits) (3 credits) Generation of equations of motion using the unit displacement, unit force, and Lagrange methods. (3 credits) Fourier and Laplace transform, modal and state-vector solution techniques. Transmission and reflection from solids, plates and impedance boundaries. (3 credits) CourseProfile (ATLAS), MECHENG 589. Prerequisite: 382 or equivalent. Prerequisite: Math 454. This course covers predictive control of dynamic systems to students working on controls. Estimation of Stochastic Signals and Systems Emphasis on analytical and graphical descriptions of state-determined systems using Bond Graph language. CourseProfile (ATLAS), MECHENG 350. (3 credits) (3 credits) CourseProfile (ATLAS), MECHENG 450. Dissertation work by a student of the Ph.D. in Mechanical Sciences and Engineering Program conducted under guidance of the faculty advisor. COURSE NUMBER: ME 452 : COURSE TITLE: ... BULLETIN DESCRIPTION: Process, tools, and methods for enhancing the ease of manufacturing and assembly for product design. Laminar and turbulent flames. Wave Propagation in Elastic Solids Principles of conduction, convection, and radiation with applications to heat exchangers and other engineering systems. Advanced instruction on direct digital manufacturing tools will be given, and customer response will be used as feedback. CourseProfile (ATLAS), MECHENG 311. Special Topics in Mechanical Engineering Machining process simulation. Prerequisite: Physics 140 & 141, and (Math 116 or Math 121 or 156.) Coverage The goal of machine learning is to develop computer algorithms that can learn from data or past experience to predict well on the new unseen data. (YR). Introduction to micro-actuators and microsensors such as micromotors, grippers, accelerometers and pressure sensors. (4 credits) Graduate standing or special permission. Development of micromechanical models for a variety of constitutive laws. (4 credits) Instruction Mode: In-Person – Synchronous, Online – Synchronous Hertzian elastic contact; elastic-plastic behavior under repeated loading; shakedown. (W,YR), ME 525 Computational Thermo-Fluids 3 Credit Hours. Entrepreneurship Courses; Contacts; Course Guides. Advanced treatment of dynamic structural theories. This course will cover theoretical aspects of smart materials, sensors and actuator technologies. (3 credits) Course mechanics (access requires umich.edu email account) > EECS course descriptions. ME 572 Convection Heat Transfer 3 Credit Hours. Linear integral equations, time dependent boundary conditions, nonlinear boundary conditions, and other topics. Examples from areas of thermal diffusion, potential/irrotational flows, lubrication, structural mechanics, design of machine components, linear elasticity and Navier-Stokes flows problems. Synthesis and analysis by analytical and computer methods. Applications of differential equation methods of particular use in mechanics. Projects are proposed from the different areas of study within mechanical engineering and reflect the expertise of instructional faculty and industrial representatives. (3 credits) (YR). Human factor considerations such as driver interfaces. At most, 6 credit-hours at the 400-level may be applied towards the degree. CourseProfile (ATLAS), MECHENG 541. Stream of variation. CourseProfile (ATLAS), MECHENG 400. CourseProfile (ATLAS), MECHENG 584 (MFG 584). The term ) material properties, view factors, radiative exchange between ideal and surfaces... Mecheng 456 ( BIOMEDE 506 ) domain, such as robots, machine,. 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