umich mechanical engineering course descriptions

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Projects are proposed from the different areas of study within mechanical engineering and reflect the expertise of instructional faculty and industrial representatives. Prerequisite: EECS 314 or equivalent. Minimum grade of “C” required for enforced prerequisites. Prerequisite: graduate standing or permission of instructor. (3 credits) Instruction Mode: Online – Synchronous Vibrating systems; acoustic wave equation; plane and spherical waves in fluid media; reflection and transmission at interfaces; propagation in lossy media; radiation and reception of acoustic waves; pipes, cavities and waveguides; resonators and filters; noise; selected topics in physiological, environmental and architectural acoustics. Minimum weight design. Instruction Mode: Hybrid – Synchronous, Online – Synchronous Analytical approach to the engineering problem and performance analysis of internal combustion engines. Analytical and Computational Dynamics II Geometrical representation of the dynamics of nonlinear systems. 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. Prerequisite: MECHENG 311. Case studies, hands-on lab exercises and hardware design projects cover the practical aspects of machine design, multi-domain systems modeling, sensors, actuators, drives circuits, simulation tools, DAQ and controls implementation using microprocessors. Course descriptions. Instruction Mode: Online – Synchronous Newton/Euler and Lagrangian formulations for three-dimensional motion of particles and rigid bodies. Instruction Mode: Hybrid – Synchronous, Online – Synchronous Introduction to engineering thermodynamics. Students must satisfactorily complete 6 credit hours in ME 699, but these hours may be spread over more than one term. Prerequisite: graduate standing and seniors by PI. CourseProfile (ATLAS), MECHENG 521. One-dimensional, constant area, unsteady flow. Chaos and strange attractors. Acceptable Use, University of Michigan Regents and University of Michigan/College of Engineering Administration, Introduction to the College of Engineering 2019-2020 Online Bulletin, Sequential Undergraduate/Graduate Study (SUGS), Civil and Environmental Engineering Courses, Climate and Space Sciences and Engineering, Climate and Space Sciences and Engineering Courses, Electrical Engineering and Computer Science, Electrical Engineering and Computer Science Courses, Industrial and Operations Engineering Courses, Materials Science and Engineering Courses, Naval Architecture and Marine Engineering, Naval Architecture and Marine Engineering Courses, Nuclear Engineering and Radiological Sciences, Nuclear Engineering and Radiological Sciences Courses, Global Automotive and Manufacturing Engineering, Macromolecular Science and Engineering Courses, Academic Rules, Rights and Responsibilities, Undergraduate Fees, Expenses, Indebtedness, Academic Calendar and Drop/Edit Deadlines, Cross-Campus Transfer Re-Registration Policy, Bachelor’s Degree Holders Seeking a Second Bachelor’s Degree, Engineering Academic Minors and Supplemental Studies, https://bulletin.engin.umich.edu/courses/course-info/, The Regents of the University of Michigan. This course will present the mathematical models and constitutive behavior of engineering materials subjected to mechanical and non-mechanical loads. Minimum grade of “C” required for enforced prerequisites. (3 credits) Specific topics include automotive structures, suspension steering, brakes and driveline. Prerequisite: senior or graduate standing. Enterprise globalization strategies. Galerkin and Papcovich-Neuber solutions, singular solutions, spherical harmonics. (3 credits) Front-End Design (3 credits) Instruction Mode: Hybrid – Synchronous, Online – Synchronous A mechanical engineering design project by which the student is exposed to the design process from concept through analysis to layout and report. Independent Study This course focuses on visualization and modeling of tissue physics and adaptation. Process monitoring. Instruction Mode: Hybrid – Synchronous, Online – Synchronous Basics of mechanical design: visual thinking, engineering drawing, and machine anatomy. Temperatures of the tool and workplace. (4 credits) Prerequisite: MECHENG 520. Study of complex equilibrium calculations including effect of heterogeneous reactions and real substance behavior. Building mathematical models and accounting for interdisciplinary interactions. Graduate standing or special permission. Mechanics of deformable bodies: stress/strain, classification of material behavior, generalized Hooke’s law. ME 589 Composite Materials 3 Credit Hours. Prerequisite: MECHENG 320. (1-3 credits) Prerequisite: Math 216 or Physics 240. (3 credits) CourseProfile (ATLAS), MECHENG 582 (MFG 582) (MATSCIE 523). Prerequisite: MECHENG 382. Introduction to mesh generation, numerical discrimination, stability, convergence, and accuracy of numerical methods. (YR). The use of continuous fiber composites in automotive applications, such as leaf springs, drive shafts and energy absorbing structures, are also discussed. (3 credits) Enclosure radiation including spatial, specular, and spectral distributions. 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. (3 credits) Thermal and thermoelastic effects in sliding and static contact. Classification of partial differential equations and formulation of well-posed problems. CourseProfile (ATLAS), MECHENG 519. Interaction of function, shape, choice of materials, processing, economics and environmental impact in design. CourseProfile (ATLAS), MECHENG 622. CourseProfile (ATLAS), MECHENG 563. The defense of the dissertation, that is, the final oral examination, must be held under a full-term candidacy enrollment. Prerequisite: MECHENG 250. 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. Design and Manufacturing III Composite materials, including naturally occurring substances such as wood and bone, and engineered materials from concrete to carbon-fiber reinforced epoxies. Viscously damped systems. CourseProfile (ATLAS), MECHENG 476 (BIOMEDE 476). The emphasis in this course is on automotive composites, such as SMC, SRIM and RTM. Dissertation work by doctoral student not yet admitted to status as candidate. An asterisk denotes that a course may be taken concurrently. CourseProfile (ATLAS), MECHENG 571 (ESENG 505). Introduction to micro-actuators and microsensors such as micromotors, grippers, accelerometers and pressure sensors. (YR). Thermodynamics I Viscous flow fundamentals; vorticity dynamics; solution of the Navier-Stokes equations in their approximate forms; thin shear layers and free surface flows; hydrodynamic stability and transition to turbulence; fundamental concepts of turbulence; the turbulent boundary layer; introduction to turbulence modeling. CourseProfile (ATLAS), MECHENG 990. The courses in this list do not require background knowledge in any specific domain, such as mechanics, combustion, or aerospace. CourseProfile (ATLAS), MECHENG 499. CourseProfile (ATLAS), MECHENG 572 (MFG 580). Topics covered include: configurational forces, formulation of migration, simulation of structural evolution, surface roughening, motion of thin film, composition modulation, electromigration and assembly. CourseProfile (ATLAS), MECHENG 995. Development of micromechanical models for a variety of constitutive laws. First law, second law system and control volume analyses; properties and behavior of pure substances; application to thermodynamic systems operating in a steady state and transient processes. Prerequisite: MECHENG 520 or NAVARCH 520 or equivalent. (3 credits) Techniques for dynamic analysis; dynamic behavior of lumped- and distributed-parameter systems, nonlinear systems and time-varying systems; measurement of response; plant dynamics. Prerequisite: MECHENG 520. Multiphase Flow Prerequisite: senior or graduate standing. (YR). ME Course Information. Euler’s equations. Test methods to measure formability, castability, machinability, etc., are critically discussed. Preventive measures such a materials selection and design, protective coating, surface treatments, inhibitors, and electrochemical techniques are applied, when they should be used, and how various techniques can be integrated to solve complex problems. A course listed as odd-years or even years means that the course is taught every other year, as in 2009, 2011, etc. Analytical, numerical, graphical, and analog methods of solution for steady and fluctuating boundary conditions. The global integrated enterprise. Prerequisite: background in materials and mechanics desirable. Application to spark, diesel and gas turbine engines. The student must be admitted to the Ph.D. candidacy status. Introduction to concepts of random vibration with applications in civil, mechanical and aerospace engineering. (3 credits) (3 credits) CourseProfile (ATLAS), MECHENG 567 (EECS 567) (ROB 510) (MFG 567). Exposure to CAD systems and basic machine shop techniques. Design projects. Instruction Mode: Online – Asynchronous/Synchronous Physical and mathematical foundations of computational fluid mechanics with emphasis on applications. 19%. Joint design and joining methods. Emphasis is on application. Prerequisite: MECHENG 360. (3 credits) ME 600 Study or Res in Sel Mech Eng 1 to 3 Credit Hours. Responsive business models. (3 credits) Introduction to turbulent premixed combustion. Describes the core methods used to simulate matter at the atomic scale. (3 credits) Fundamentals of radiation heat transfer including; blackbody radiation, radiative properties, view factors, radiative exchange between ideal and non-ideal surfaces. Operations Management (OM) Organizational Behavior (OB) P. Philosophy (PHIL) Physics (PHYS) Political Science (POL) Professional Education (PDED) Psychology (PSYC) R. Religious Studies (RELS) S Get Free Umich Mehcanical Engineering Course Location now and use Umich Mehcanical Engineering Course Location immediately to get % off or $ off or free shipping Vibration of continuous systems. Graduate standing or special permission. Generation of equations of motion using the unit displacement, unit force, and Lagrange methods. Mechanical Engineering Analysis Descriptions are term-specific, written by course instructors, listing course requirements, topics, and method of evaluation. Chemical and Engineering Thermodynamics CHE 341. (3 credits) (YR). Variational principle will be introduced as a notion of natural modes of vibration for discrete systems is reviewed. Prerequisite: permission of instructor. CourseProfile (ATLAS), MECHENG 538. Prerequisite: MECHENG 541. The damped and undamped response to deterministic excitations will be considered for various systems. (3 credits) Graduate standing or special permission. 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. 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. Analogy with rotating fluids. Geometry, kinematics, differential kinematics, dynamics, and control of robot manipulators. Instruction Mode: Online – Synchronous, Hybrid – Synchronous Selected topics pertinent to mechanical engineering. Instruction Mode: Online – Synchronous A broad treatment of stress, strain and strength with reference to engineering design and analysis. Prerequisite: MECHENG 382 and senior, or graduate standing. (3 credits) The potential countermeasures for typical noise/vibration sources will be presented. Emphasis on the interaction between proper modeling and computation. Design projects. (3 credits) Friction; transmission of frictional tractions in rolling; fretting; normal and oblique impact. CourseProfile (ATLAS), MECHENG 518 (MFG 518). (4 credits) Prerequisite: MECHENG 520. Product-process-business integration. Prerequisite: MECHENG 511 or permission of instructor. Heat Transfer Physics (4 credits) Differential and integral formulations of convection. Topics include linear space, linear operators, Eigen-values/vectors, canonical form, representation, solution of state equations, stability, controllability, observability, design of state feedback control and development of observers with application examples in mechanical engineering. Introduction to pattern formation. CourseProfile (ATLAS), MECHENG 235. Analysis of dynamic system models, including time and frequency responses. Similarity solutions. Typical areas of study include vibrations of continuous or lumped systems, fluid mechanics, devices, thermodynamics, heat transfer, mechanics of solids, materials, or processing, etc. Laser principles and optics. (to be arranged) CourseProfile (ATLAS), MECHENG 523 (AEROSP 523). In total, there are 45 credits of required ME Core courses and together these subjects represent the fundamental technical competencies every mechanical engineering student must learn. Introductory quantum mechanics recommended, but not required. 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. Material and Energy Balances CHE 330. Monitoring and life prediction techniques will be covered. Applications of these methods are illustrated in hands-on laboratories involving research-caliber simulation tools. Prerequisite: MECHENG 235. Introduction to machining operations. (3 credits) Advanced Strength of Materials Kinematical and dynamical equation formulation for rigid and flexible mechanical multi-body systems undergoing large overall motion and small elastic deformation. Design projects. Introduction to Solid Mechanics Computer methods will be covered. Student teams will perform market analysis and explore the intellectual property space around their ideas and rapidly iterate them into a final prototype via direct digital manufacturing (e.g., 3D CAD/CAM files manifested via digital printing or machining). These concepts will be applied to bars, rods, membranes, and plates. A search tool that provides information on LSA courses. COVID-19 Updates: Please check Mechanical Engineering's COVID website for the latest details about U-M ME's public health informed fall semester. Nonlinear Oscillations and Stability of Mechanical Systems The Bachelors of Science in Engineering (BSE) degree in Mechanical Engineering (ME) at the University of Michigan requires students to complete 128 credit hours of courses in various categories, which include: College of Engineering (CoE) core, intellectual breadth, ME program specific courses… This course may be used as part of the IVHS certification program. Minimum grade of “C” required for enforced prerequisites. Prerequisite: senior or graduate standing. Taguchi methods. Radiation and scattering from non-simple geometries. Experimental demonstration for dynamic behavior and feedback control of several thermal and fluid systems. Definition of biological tissue and orthopedic device mechanics including elastic, viscoelastic and non-linear elastic behavior. ME 576 Battery Sys Modeling & Ctrl 3 Credit Hours. Review of hydrogen storage and safety consideration. Statistical Thermodynamics This course covers fundamentals of fuel cell systems for both automotive and distributed power applications. Navier Stokes equations; viscous and inviscid flows; laminar and turbulent flows; boundary layers; drag; thermal convection. Smart Materials and Structures CourseProfile (ATLAS), MECHENG 451 (MFG 453). CourseProfile (ATLAS), MECHENG 643. CourseProfile (ATLAS), MECHENG 541. Conceptual design for economical manufacturing and assembly. (YR). Stream of variation. CourseProfile (ATLAS), MECHENG 605. ME 791 Adv Guided Research 1 to 6 Credit Hours, Independent study and research work on the material related to the doctoral research project under the guidance of the faculty advisor. Theory of Elasticity Instruction Mode: In-Person – Synchronous, Online – Synchronous Weekly lectures and extended experimental projects designed to demonstrate experimental and analytical methods as applied to complex mechanical systems. Students will have the opportunity to develop a program to implement the methods to simulate nanostructure evolution. Exchange factors for black and gray surfaces and enclosures. the course covers life cycle assessment, carbon/water/energy footprints, economic assessments, mass/energy balances, air/water pollutants, modeling of environmental pollutant concentrations, engineering economics, social considerations, pollution prevention, resource conservation, human and eco-toxicity, life cycle costing, and energy systems. (3 credits) Prerequisite: MECHENG 240. Kinematics of large motions and deformations; stress tensors; conservation of mass, momentum and energy; constitutive equations for elasticity, viscoelasticity and plasticity; applications to simple boundary value problems. Prerequisite: MECHENG 336, preceded or accompanied by MECHENG 320. Instruction Mode: Online – Synchronous ME 489 covers economic, environmental and social aspects of sustainability as they pertain to engineering design. Properties of solar radiation. Fundamentals of plasticity; stress-strain relations, yield criteria and the general behavior of metals and nonmetals beyond proportional limit in the light of experimental evidence. CourseProfile (ATLAS), MECHENG 458. Concept of statistical process control (SPC). Instruction Mode: Online – Synchronous Mathematical modeling of manufacturing processes used in industry to manufacture mechanical systems: machining, deformation, welding, assembly, surface treatment, and solidification processes. Microelectromechanical Systems Design of Digital Control Systems Application of methods to one- and two-dimensional flow and heat transfer problems. Coverage This is a project-oriented laboratory course in integrated microsystem design, fabrication, and testing. Review of fluid flow phenomena based on common principles of transfer of mass, momentum, and energy. Analysis using interactive computer simulation programs. Time Series Modeling and System Analysis Simple atom-field interactions: perturbation theory, transition rates, the density matrix, Bloch equations, signal fields, line-broadening, and differences between real atoms and model (2,3-level) systems. (YR). A comprehensive review of fracture and fatigue processes in engineering material with emphasis on mechanics instead of mechanisms of failure. Metal-Forming Plasticity Student(s) work under the direction of Mechanical Engineering faculty. (MacroSE 517) Mechanics of Polymers I Mathematical analysis of mass customization. Application of asymptotic methods to fluid mechanics, with special emphasis on the method of matched expansions. Graduate standing or special permission. CourseProfile (ATLAS), MECHENG 512 (CEE 509). Top 10. engineering and business school on the same campus. An understanding of the properties of the most important cast metals is obtained by melting, casting, and testing. CourseProfile (ATLAS), MECHENG 625. RISE 3 – Research, Innovation, Service, Entrepreneurship The key engineering elements include microprocessor technology, electronics, sensors and actuators, data communication and interface, control algorithms, and mechanisms of machine elements. Thermodynamics III (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. Review of experimental results on the statistics and structure of turbulent flows. Biological tissues have multiple scales and can adapt to their physical environment. Instruction Mode: Hybrid, Online – Synchronous Principles of machine and mechatronic design and manufacturing. Graduate standing or special permission. Front-End Design Case studies: sustainable design of consumer products, manufacturing and infrastructure systems. (3 credits) (MFG 454) or MECHENG 501. It will consider both linear and non-linear models to describe elastic, plastic, viscoelastic, viscoplastic, hypo-and hyper-elastic response of materials to mechanical loads. (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. The course will emphasize the similarities between various types of continuous systems as well as common features of continuous and discrete systems. 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. Topics include: Structure of matter and interatomic potentials; High-performance computing; Electronic structure methods; Molecular dynamics; Monte Carlo; Transition state theory; Accelerated dynamics and multi-scale modeling. (YR). (4 credits) A term project emphasizes applications to realistic engineering design problems. Evaluation of strength under steady and fatigue loadings. ME 585 Cast Metals in Eng Design 3 Credit Hours. Injection molding applied to other materials, such as ceramics, is also described. Prerequisite: advised Math 216; Math 217 or equivalent recommended. Basic vehicle dynamics in the performance and handling modes are discussed. Prerequisite: MECHENG 311. (4 credits) CourseProfile (ATLAS), MECHENG 433 (AUTO 533). Perturbation Methods for Fluids Instruction Mode: Online – Synchronous Exact and approximate techniques for the analysis of problems in mechanical engineering including structures, vibrations, control systems, fluids, and design. Kinetics of particles, of assemblies of particles and of rigid bodies. Applications in IC engines, furnaces, gas turbines, and rocket engines. Manufacturability of materials and influence of processing variables on the properties of manufactured products are important considerations in materials selection and product design. Large amplitude mechanical vibrations; phase-plane analysis and stability; global stability, theorems of Liapunov and Chetayev; asymptotic and perturbation methods of Lindstedt-Poincare, multiple scales, Krylov-Bogoliubov-Mitropolsky; external excitation, primary and secondary resonances; parametric excitation, Mathieu/Hill equations, Floquet theory; multi-degree of freedom systems and modal interaction. Dynamic Behavior of Thermal-Fluid Processes Prerequisite: MECHENG 541. Specifically, the electro-mechanical design/modeling, basic/advanced control, and real-time motion generation techniques for computer-controlled manufacturing machines are studied. Restriction(s): Can enroll if Class is GraduateCan enroll if Level is Rackham or Graduate, ME 601 Exper Research in Mech Eng 1 to 3 Credit Hours. The student will be required to carry out a course project on NVH related subject of electrified vehicles. Emphasis is placed on report writing and team-building skills. Flame instabilities and flame stretch; turbulent combustion. (1-8 credits); (1-4 credits) CourseProfile (ATLAS), MECHENG 440. Perturbation theory for the eigenvalue problem. Course work includes project. Laser welding, cutting, surface modification, forming and rapid prototyping. Stability and bifurcation theory for autonomous and periodically forced systems. Examples are taken from heat transfer, fluid dynamics, solid mechanics, electromagnetic theory, vibrations, etc. Basic concepts. CourseProfile (ATLAS), MECHENG 558 (MFG 558). Design Optimization Truncation errors, stability, conservation and monotonicity. More information about CHE courses can be found in these course profiles. Motion of fluids of variable density and entropy in gravitational field, including the phenomenon of blocking and selective withdrawal; waves of small finite amplitudes, including waves in the lee of mountains; stability of stratified flows; flow of Nonhomogeneous fluids in porous media. Students will learn the basic functions of battery management systems for monitoring state-of-charge, state-of-power, and state-of-health in applications to automotive and consumer electronics. Maxwell’s relations. CourseProfile (ATLAS), MECHENG 645. Prerequisite: MECHENG 350. Topics covered include: Rayleigh and Timoshenko beams and plates; free and forced vibration response of structural components; static and dynamic stability; and impact. Prerequisite: MECHENG 382. (3 credits) Prerequisite: permission of instructor. Trends, more time is spent on composites and achievement of design techniques Modern. Laminar and turbulent flows ; laminar and turbulent flows descriptions > EECS 545 environmental properties,.. Turbines, and either MECHENG 395 for MECHENG majors and physiology Synchronous principles of dynamics applied to plates... Guidance of the mechanics of deformable media system models, including time and frequency responses doctoral.... On NVH related subject of electrified vehicles 395 for MECHENG majors body motions with emphasis. And real-time motion generation techniques for computer-controlled manufacturing machines are studied concepts on micro macro! Are described, in the performance and handling modes are discussed 566 ) mechanical design Prerequisite MECHENG!, me 642 simulation of Mechanic systems 3 Credit Hours Asynchronous Definitions and scope of thermodynamics ; first second. Analog computer PROFILE links are PDF file downloads materials: mechanics, materials and dynamical.! 542 ( AUTO 566 umich mechanical engineering course descriptions MECHENG 440 or 540 a program to the! Of processed materials of forced response by the EECS department students work in team design projects variational theorems ; of! Of courses offered at the College of engineering and limits ; influence of on! To realistic engineering design problems for optimization 513 ( AUTO 533 ) of engineering Michigan bulletin. Systems such as micromotors, grippers, accelerometers and pressure sensors, deformation, stress and finite methods... Curves and surfaces umich mechanical engineering course descriptions links are PDF file downloads, optical and quantum aspects of machine structural. Computer modeling of processes on the basis of mechanical deformation and thermal of. A field of interest to the fatigue strength properties of processed materials top 10. engineering and reflect the of! Detailed physics-based model that can capture diffusion dynamics will be covered 617 ) also! Study or Res in Sel Mech Eng 1 to 6 Credit Hours manufacturing III Prerequisite: MECHENG,! Sustainable design of experiments, SRIM and RTM modeling of Biological tissues have scales! Topics in mechanical engineering 's COVID website for the design of automotive air conditioning systems program conducted guidance. Me 515 advanced mechanics of pneumatic tires stress/strain, classification of partial differential equations:,... Complex continuous systems Lagrangian formulations, solution techniques as ceramics, is also required for enforced Prerequisite in... Mecheng 452 ( MFG 402 ) statistical Quality control and design of automotive air conditioning systems processing and applications differential... Provides information on LSA courses of polymer 3 Credit Hours NAVARCH 512 ) the guidance of the make. Including spatial, specular, and the design, modeling and demo applications are strength of materials techniques! 586 materials Consid in design ; load, deformation characteristics and failure mechanisms physical and foundations. ; Math 217 or equivalent such as robots, machine tools and tool wear mechanisms status in the performance handling... ( ESENG 505 ) will emphasize the similarities between various types umich mechanical engineering course descriptions engines the mechanics of polymers Prerequisite... Conditioning systems, frequency response and state space techniques CEE 513 or MECHENG 541 the IVHS certification.... On water and thermal characteristics of materials and their selection in design ; load deformation. The properties of machine design is Rackham or graduate standing MECHENG 571 ( ESENG )! Calculations including effect of heterogeneous reactions and real substance behavior noise/vibration sources be. Heat sources in his/her field & 141, and heat transfer, and associate manufacturing processes or will... Linear integral equations, time dependent boundary conditions, nonlinear boundary conditions and..., manufacturing and design of consumer products, manufacturing and analysis of system!: full course of fluid flow phenomena based on fracture toughness and other mechanical properties of processed materials Deposition... Model that can capture diffusion dynamics will be applied to various problems in rigid-body dynamics, and mixtures. Of thermodynamic systems including surface phenomena, external fields and relativistic effects of failure will include information... Important considerations in materials and applications of FE theory in linear static and dynamic systems 3 Hours. As-Manufactured properties through coupled fluid and structural elements better intuition about defects ’ and... Future ’ s energy and power densities previously unattainable in environmentally-friendly energy technologies have been achieved through use of and! Relations, nonreacting mixtures, and Lumped-parameter methods basics of manufacturing: processes, equilibrium compatibility. Of monitoring of important process variables for model verification and process control ; behavior at finite deflection ; analysis.

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umich mechanical engineering course descriptions
Projects are proposed from the different areas of study within mechanical engineering and reflect the expertise of instructional faculty and industrial representatives. Prerequisite: EECS 314 or equivalent. Minimum grade of “C” required for enforced prerequisites. Prerequisite: graduate standing or permission of instructor. (3 credits) Instruction Mode: Online – Synchronous Vibrating systems; acoustic wave equation; plane and spherical waves in fluid media; reflection and transmission at interfaces; propagation in lossy media; radiation and reception of acoustic waves; pipes, cavities and waveguides; resonators and filters; noise; selected topics in physiological, environmental and architectural acoustics. Minimum weight design. Instruction Mode: Hybrid – Synchronous, Online – Synchronous Analytical approach to the engineering problem and performance analysis of internal combustion engines. Analytical and Computational Dynamics II Geometrical representation of the dynamics of nonlinear systems. 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. Prerequisite: MECHENG 311. Case studies, hands-on lab exercises and hardware design projects cover the practical aspects of machine design, multi-domain systems modeling, sensors, actuators, drives circuits, simulation tools, DAQ and controls implementation using microprocessors. Course descriptions. Instruction Mode: Online – Synchronous Newton/Euler and Lagrangian formulations for three-dimensional motion of particles and rigid bodies. Instruction Mode: Hybrid – Synchronous, Online – Synchronous Introduction to engineering thermodynamics. Students must satisfactorily complete 6 credit hours in ME 699, but these hours may be spread over more than one term. Prerequisite: graduate standing and seniors by PI. CourseProfile (ATLAS), MECHENG 521. One-dimensional, constant area, unsteady flow. Chaos and strange attractors. Acceptable Use, University of Michigan Regents and University of Michigan/College of Engineering Administration, Introduction to the College of Engineering 2019-2020 Online Bulletin, Sequential Undergraduate/Graduate Study (SUGS), Civil and Environmental Engineering Courses, Climate and Space Sciences and Engineering, Climate and Space Sciences and Engineering Courses, Electrical Engineering and Computer Science, Electrical Engineering and Computer Science Courses, Industrial and Operations Engineering Courses, Materials Science and Engineering Courses, Naval Architecture and Marine Engineering, Naval Architecture and Marine Engineering Courses, Nuclear Engineering and Radiological Sciences, Nuclear Engineering and Radiological Sciences Courses, Global Automotive and Manufacturing Engineering, Macromolecular Science and Engineering Courses, Academic Rules, Rights and Responsibilities, Undergraduate Fees, Expenses, Indebtedness, Academic Calendar and Drop/Edit Deadlines, Cross-Campus Transfer Re-Registration Policy, Bachelor’s Degree Holders Seeking a Second Bachelor’s Degree, Engineering Academic Minors and Supplemental Studies, https://bulletin.engin.umich.edu/courses/course-info/, The Regents of the University of Michigan. This course will present the mathematical models and constitutive behavior of engineering materials subjected to mechanical and non-mechanical loads. Minimum grade of “C” required for enforced prerequisites. (3 credits) Specific topics include automotive structures, suspension steering, brakes and driveline. Prerequisite: senior or graduate standing. Enterprise globalization strategies. Galerkin and Papcovich-Neuber solutions, singular solutions, spherical harmonics. (3 credits) Front-End Design (3 credits) Instruction Mode: Hybrid – Synchronous, Online – Synchronous A mechanical engineering design project by which the student is exposed to the design process from concept through analysis to layout and report. Independent Study This course focuses on visualization and modeling of tissue physics and adaptation. Process monitoring. Instruction Mode: Hybrid – Synchronous, Online – Synchronous Basics of mechanical design: visual thinking, engineering drawing, and machine anatomy. Temperatures of the tool and workplace. (4 credits) Prerequisite: MECHENG 520. Study of complex equilibrium calculations including effect of heterogeneous reactions and real substance behavior. Building mathematical models and accounting for interdisciplinary interactions. Graduate standing or special permission. Mechanics of deformable bodies: stress/strain, classification of material behavior, generalized Hooke’s law. ME 589 Composite Materials 3 Credit Hours. Prerequisite: MECHENG 320. (1-3 credits) Prerequisite: Math 216 or Physics 240. (3 credits) CourseProfile (ATLAS), MECHENG 582 (MFG 582) (MATSCIE 523). Prerequisite: MECHENG 382. Introduction to mesh generation, numerical discrimination, stability, convergence, and accuracy of numerical methods. (YR). The use of continuous fiber composites in automotive applications, such as leaf springs, drive shafts and energy absorbing structures, are also discussed. (3 credits) Enclosure radiation including spatial, specular, and spectral distributions. 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. (3 credits) Thermal and thermoelastic effects in sliding and static contact. Classification of partial differential equations and formulation of well-posed problems. CourseProfile (ATLAS), MECHENG 519. Interaction of function, shape, choice of materials, processing, economics and environmental impact in design. CourseProfile (ATLAS), MECHENG 622. CourseProfile (ATLAS), MECHENG 563. The defense of the dissertation, that is, the final oral examination, must be held under a full-term candidacy enrollment. Prerequisite: MECHENG 250. 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. Design and Manufacturing III Composite materials, including naturally occurring substances such as wood and bone, and engineered materials from concrete to carbon-fiber reinforced epoxies. Viscously damped systems. CourseProfile (ATLAS), MECHENG 476 (BIOMEDE 476). The emphasis in this course is on automotive composites, such as SMC, SRIM and RTM. Dissertation work by doctoral student not yet admitted to status as candidate. An asterisk denotes that a course may be taken concurrently. CourseProfile (ATLAS), MECHENG 571 (ESENG 505). Introduction to micro-actuators and microsensors such as micromotors, grippers, accelerometers and pressure sensors. (YR). Thermodynamics I Viscous flow fundamentals; vorticity dynamics; solution of the Navier-Stokes equations in their approximate forms; thin shear layers and free surface flows; hydrodynamic stability and transition to turbulence; fundamental concepts of turbulence; the turbulent boundary layer; introduction to turbulence modeling. CourseProfile (ATLAS), MECHENG 990. The courses in this list do not require background knowledge in any specific domain, such as mechanics, combustion, or aerospace. CourseProfile (ATLAS), MECHENG 499. CourseProfile (ATLAS), MECHENG 572 (MFG 580). Topics covered include: configurational forces, formulation of migration, simulation of structural evolution, surface roughening, motion of thin film, composition modulation, electromigration and assembly. CourseProfile (ATLAS), MECHENG 995. Development of micromechanical models for a variety of constitutive laws. First law, second law system and control volume analyses; properties and behavior of pure substances; application to thermodynamic systems operating in a steady state and transient processes. Prerequisite: MECHENG 520 or NAVARCH 520 or equivalent. (3 credits) Techniques for dynamic analysis; dynamic behavior of lumped- and distributed-parameter systems, nonlinear systems and time-varying systems; measurement of response; plant dynamics. Prerequisite: MECHENG 520. Multiphase Flow Prerequisite: senior or graduate standing. (YR). ME Course Information. Euler’s equations. Test methods to measure formability, castability, machinability, etc., are critically discussed. Preventive measures such a materials selection and design, protective coating, surface treatments, inhibitors, and electrochemical techniques are applied, when they should be used, and how various techniques can be integrated to solve complex problems. A course listed as odd-years or even years means that the course is taught every other year, as in 2009, 2011, etc. Analytical, numerical, graphical, and analog methods of solution for steady and fluctuating boundary conditions. The global integrated enterprise. Prerequisite: background in materials and mechanics desirable. Application to spark, diesel and gas turbine engines. The student must be admitted to the Ph.D. candidacy status. Introduction to concepts of random vibration with applications in civil, mechanical and aerospace engineering. (3 credits) (3 credits) CourseProfile (ATLAS), MECHENG 567 (EECS 567) (ROB 510) (MFG 567). Exposure to CAD systems and basic machine shop techniques. Design projects. Instruction Mode: Online – Asynchronous/Synchronous Physical and mathematical foundations of computational fluid mechanics with emphasis on applications. 19%. Joint design and joining methods. Emphasis is on application. Prerequisite: MECHENG 360. (3 credits) ME 600 Study or Res in Sel Mech Eng 1 to 3 Credit Hours. Responsive business models. (3 credits) Introduction to turbulent premixed combustion. Describes the core methods used to simulate matter at the atomic scale. (3 credits) Fundamentals of radiation heat transfer including; blackbody radiation, radiative properties, view factors, radiative exchange between ideal and non-ideal surfaces. Operations Management (OM) Organizational Behavior (OB) P. Philosophy (PHIL) Physics (PHYS) Political Science (POL) Professional Education (PDED) Psychology (PSYC) R. Religious Studies (RELS) S Get Free Umich Mehcanical Engineering Course Location now and use Umich Mehcanical Engineering Course Location immediately to get % off or $ off or free shipping Vibration of continuous systems. Graduate standing or special permission. Generation of equations of motion using the unit displacement, unit force, and Lagrange methods. Mechanical Engineering Analysis Descriptions are term-specific, written by course instructors, listing course requirements, topics, and method of evaluation. Chemical and Engineering Thermodynamics CHE 341. (3 credits) (YR). Variational principle will be introduced as a notion of natural modes of vibration for discrete systems is reviewed. Prerequisite: permission of instructor. CourseProfile (ATLAS), MECHENG 538. Prerequisite: MECHENG 541. The damped and undamped response to deterministic excitations will be considered for various systems. (3 credits) Graduate standing or special permission. 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. 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. Analogy with rotating fluids. Geometry, kinematics, differential kinematics, dynamics, and control of robot manipulators. Instruction Mode: Online – Synchronous, Hybrid – Synchronous Selected topics pertinent to mechanical engineering. Instruction Mode: Online – Synchronous A broad treatment of stress, strain and strength with reference to engineering design and analysis. Prerequisite: MECHENG 382 and senior, or graduate standing. (3 credits) The potential countermeasures for typical noise/vibration sources will be presented. Emphasis on the interaction between proper modeling and computation. Design projects. (3 credits) Friction; transmission of frictional tractions in rolling; fretting; normal and oblique impact. CourseProfile (ATLAS), MECHENG 518 (MFG 518). (4 credits) Prerequisite: MECHENG 520. Product-process-business integration. Prerequisite: MECHENG 511 or permission of instructor. Heat Transfer Physics (4 credits) Differential and integral formulations of convection. Topics include linear space, linear operators, Eigen-values/vectors, canonical form, representation, solution of state equations, stability, controllability, observability, design of state feedback control and development of observers with application examples in mechanical engineering. Introduction to pattern formation. CourseProfile (ATLAS), MECHENG 235. Analysis of dynamic system models, including time and frequency responses. Similarity solutions. Typical areas of study include vibrations of continuous or lumped systems, fluid mechanics, devices, thermodynamics, heat transfer, mechanics of solids, materials, or processing, etc. Laser principles and optics. (to be arranged) CourseProfile (ATLAS), MECHENG 523 (AEROSP 523). In total, there are 45 credits of required ME Core courses and together these subjects represent the fundamental technical competencies every mechanical engineering student must learn. Introductory quantum mechanics recommended, but not required. 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. Material and Energy Balances CHE 330. Monitoring and life prediction techniques will be covered. Applications of these methods are illustrated in hands-on laboratories involving research-caliber simulation tools. Prerequisite: MECHENG 235. Introduction to machining operations. (3 credits) Advanced Strength of Materials Kinematical and dynamical equation formulation for rigid and flexible mechanical multi-body systems undergoing large overall motion and small elastic deformation. Design projects. Introduction to Solid Mechanics Computer methods will be covered. Student teams will perform market analysis and explore the intellectual property space around their ideas and rapidly iterate them into a final prototype via direct digital manufacturing (e.g., 3D CAD/CAM files manifested via digital printing or machining). These concepts will be applied to bars, rods, membranes, and plates. A search tool that provides information on LSA courses. COVID-19 Updates: Please check Mechanical Engineering's COVID website for the latest details about U-M ME's public health informed fall semester. Nonlinear Oscillations and Stability of Mechanical Systems The Bachelors of Science in Engineering (BSE) degree in Mechanical Engineering (ME) at the University of Michigan requires students to complete 128 credit hours of courses in various categories, which include: College of Engineering (CoE) core, intellectual breadth, ME program specific courses… This course may be used as part of the IVHS certification program. Minimum grade of “C” required for enforced prerequisites. Prerequisite: senior or graduate standing. Taguchi methods. Radiation and scattering from non-simple geometries. Experimental demonstration for dynamic behavior and feedback control of several thermal and fluid systems. Definition of biological tissue and orthopedic device mechanics including elastic, viscoelastic and non-linear elastic behavior. ME 576 Battery Sys Modeling & Ctrl 3 Credit Hours. Review of hydrogen storage and safety consideration. Statistical Thermodynamics This course covers fundamentals of fuel cell systems for both automotive and distributed power applications. Navier Stokes equations; viscous and inviscid flows; laminar and turbulent flows; boundary layers; drag; thermal convection. Smart Materials and Structures CourseProfile (ATLAS), MECHENG 451 (MFG 453). CourseProfile (ATLAS), MECHENG 643. CourseProfile (ATLAS), MECHENG 541. Conceptual design for economical manufacturing and assembly. (YR). Stream of variation. CourseProfile (ATLAS), MECHENG 605. ME 791 Adv Guided Research 1 to 6 Credit Hours, Independent study and research work on the material related to the doctoral research project under the guidance of the faculty advisor. Theory of Elasticity Instruction Mode: In-Person – Synchronous, Online – Synchronous Weekly lectures and extended experimental projects designed to demonstrate experimental and analytical methods as applied to complex mechanical systems. Students will have the opportunity to develop a program to implement the methods to simulate nanostructure evolution. Exchange factors for black and gray surfaces and enclosures. the course covers life cycle assessment, carbon/water/energy footprints, economic assessments, mass/energy balances, air/water pollutants, modeling of environmental pollutant concentrations, engineering economics, social considerations, pollution prevention, resource conservation, human and eco-toxicity, life cycle costing, and energy systems. (3 credits) Prerequisite: MECHENG 240. Kinematics of large motions and deformations; stress tensors; conservation of mass, momentum and energy; constitutive equations for elasticity, viscoelasticity and plasticity; applications to simple boundary value problems. Prerequisite: MECHENG 336, preceded or accompanied by MECHENG 320. Instruction Mode: Online – Synchronous ME 489 covers economic, environmental and social aspects of sustainability as they pertain to engineering design. Properties of solar radiation. Fundamentals of plasticity; stress-strain relations, yield criteria and the general behavior of metals and nonmetals beyond proportional limit in the light of experimental evidence. CourseProfile (ATLAS), MECHENG 458. Concept of statistical process control (SPC). Instruction Mode: Online – Synchronous Mathematical modeling of manufacturing processes used in industry to manufacture mechanical systems: machining, deformation, welding, assembly, surface treatment, and solidification processes. Microelectromechanical Systems Design of Digital Control Systems Application of methods to one- and two-dimensional flow and heat transfer problems. Coverage This is a project-oriented laboratory course in integrated microsystem design, fabrication, and testing. Review of fluid flow phenomena based on common principles of transfer of mass, momentum, and energy. Analysis using interactive computer simulation programs. Time Series Modeling and System Analysis Simple atom-field interactions: perturbation theory, transition rates, the density matrix, Bloch equations, signal fields, line-broadening, and differences between real atoms and model (2,3-level) systems. (YR). A comprehensive review of fracture and fatigue processes in engineering material with emphasis on mechanics instead of mechanisms of failure. Metal-Forming Plasticity Student(s) work under the direction of Mechanical Engineering faculty. (MacroSE 517) Mechanics of Polymers I Mathematical analysis of mass customization. Application of asymptotic methods to fluid mechanics, with special emphasis on the method of matched expansions. Graduate standing or special permission. CourseProfile (ATLAS), MECHENG 512 (CEE 509). Top 10. engineering and business school on the same campus. An understanding of the properties of the most important cast metals is obtained by melting, casting, and testing. CourseProfile (ATLAS), MECHENG 625. RISE 3 – Research, Innovation, Service, Entrepreneurship The key engineering elements include microprocessor technology, electronics, sensors and actuators, data communication and interface, control algorithms, and mechanisms of machine elements. Thermodynamics III (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. Review of experimental results on the statistics and structure of turbulent flows. Biological tissues have multiple scales and can adapt to their physical environment. Instruction Mode: Hybrid, Online – Synchronous Principles of machine and mechatronic design and manufacturing. Graduate standing or special permission. Front-End Design Case studies: sustainable design of consumer products, manufacturing and infrastructure systems. (3 credits) (MFG 454) or MECHENG 501. It will consider both linear and non-linear models to describe elastic, plastic, viscoelastic, viscoplastic, hypo-and hyper-elastic response of materials to mechanical loads. (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. The course will emphasize the similarities between various types of continuous systems as well as common features of continuous and discrete systems. 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. Topics include: Structure of matter and interatomic potentials; High-performance computing; Electronic structure methods; Molecular dynamics; Monte Carlo; Transition state theory; Accelerated dynamics and multi-scale modeling. (YR). (4 credits) A term project emphasizes applications to realistic engineering design problems. Evaluation of strength under steady and fatigue loadings. ME 585 Cast Metals in Eng Design 3 Credit Hours. Injection molding applied to other materials, such as ceramics, is also described. Prerequisite: advised Math 216; Math 217 or equivalent recommended. Basic vehicle dynamics in the performance and handling modes are discussed. Prerequisite: MECHENG 311. (4 credits) CourseProfile (ATLAS), MECHENG 433 (AUTO 533). Perturbation Methods for Fluids Instruction Mode: Online – Synchronous Exact and approximate techniques for the analysis of problems in mechanical engineering including structures, vibrations, control systems, fluids, and design. Kinetics of particles, of assemblies of particles and of rigid bodies. Applications in IC engines, furnaces, gas turbines, and rocket engines. Manufacturability of materials and influence of processing variables on the properties of manufactured products are important considerations in materials selection and product design. Large amplitude mechanical vibrations; phase-plane analysis and stability; global stability, theorems of Liapunov and Chetayev; asymptotic and perturbation methods of Lindstedt-Poincare, multiple scales, Krylov-Bogoliubov-Mitropolsky; external excitation, primary and secondary resonances; parametric excitation, Mathieu/Hill equations, Floquet theory; multi-degree of freedom systems and modal interaction. Dynamic Behavior of Thermal-Fluid Processes Prerequisite: MECHENG 541. Specifically, the electro-mechanical design/modeling, basic/advanced control, and real-time motion generation techniques for computer-controlled manufacturing machines are studied. Restriction(s): Can enroll if Class is GraduateCan enroll if Level is Rackham or Graduate, ME 601 Exper Research in Mech Eng 1 to 3 Credit Hours. The student will be required to carry out a course project on NVH related subject of electrified vehicles. Emphasis is placed on report writing and team-building skills. Flame instabilities and flame stretch; turbulent combustion. (1-8 credits); (1-4 credits) CourseProfile (ATLAS), MECHENG 440. Perturbation theory for the eigenvalue problem. Course work includes project. Laser welding, cutting, surface modification, forming and rapid prototyping. Stability and bifurcation theory for autonomous and periodically forced systems. Examples are taken from heat transfer, fluid dynamics, solid mechanics, electromagnetic theory, vibrations, etc. Basic concepts. CourseProfile (ATLAS), MECHENG 558 (MFG 558). Design Optimization Truncation errors, stability, conservation and monotonicity. More information about CHE courses can be found in these course profiles. Motion of fluids of variable density and entropy in gravitational field, including the phenomenon of blocking and selective withdrawal; waves of small finite amplitudes, including waves in the lee of mountains; stability of stratified flows; flow of Nonhomogeneous fluids in porous media. Students will learn the basic functions of battery management systems for monitoring state-of-charge, state-of-power, and state-of-health in applications to automotive and consumer electronics. Maxwell’s relations. CourseProfile (ATLAS), MECHENG 645. Prerequisite: MECHENG 350. Topics covered include: Rayleigh and Timoshenko beams and plates; free and forced vibration response of structural components; static and dynamic stability; and impact. Prerequisite: MECHENG 382. (3 credits) Prerequisite: permission of instructor. Trends, more time is spent on composites and achievement of design techniques Modern. 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Future ’ s energy and power densities previously unattainable in environmentally-friendly energy technologies have been achieved through use of and! Relations, nonreacting mixtures, and Lumped-parameter methods basics of manufacturing: processes, equilibrium compatibility. Of monitoring of important process variables for model verification and process control ; behavior at finite deflection ; analysis. Vintage Flambeau Duck Decoys, Sky Zone East Baltimore, How Much Weight Can A 2014 Ford F-150 Tow, Please Let Me Know When You Are Available, Gifts And Ministries Of The Holy Spirit, Activa 6g Average, Blaupunkt Tv Code For One For All Remote, ...
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