Mechanical Engineering

      Yu-Lin Shen, Chairperson
      Mechanical Engineering Department
      ME Room 202A
      MSC01 1150
      1 University of New Mexico
      Albuquerque, NM 87131-0001
      505-277-2761

      Professors
      Juan C. Heinrich, Ph.D., University of Pittsburgh
      Ronald Lumia, Ph.D., University of Virginia
      Arsalan Razani, Ph.D., Purdue University
      John J. Russell, Ph.D., University of Michigan
      Yu-Lin Shen, Ph.D., Brown University
      Gregory P. Starr, Ph.D., Stanford University
      C. Randall Truman, Ph.D., Arizona State University
      John E. Wood, Ph.D., Massachusetts Institute of Technology

      Associate Professors
      Nader D. Ebrahimi, Ph.D., University of Wisconsin (Madison)
      Tariq Khraishi, Ph.D., Washington State University
      Andrea Mammoli, Ph.D., University of Western Australia
      Peter V. Vorobieff, Ph.D., Lehigh University

      Assistant Professors
      Zayd C. Leseman, Ph.D., University of Illinois at Urbana-Champaign
      Svetlana Poroseva, Ph.D., Novosibirsk State University

      Lecturer II
      Robert H. Greenlee, M.S., The University of New Mexico*

      Professors Emeriti
      Bohumil Albrecht, Ph.D., Yale University
      William E. Baker, Ph.D., University of Texas*
      James R. Leith, Ph.D., University of Texas
      Joe H. Mullins, Ph.D., California Institute of Technology
      Charles G. Richards, Ph.D., University of Michigan
      Howard L. Schreyer, Ph.D., University of Michigan*
      Mo Shahinpoor, Ph.D., University of Delaware*
      Maurice W. Wildin, Ph.D., Purdue University

      *Registered Professional Engineer in New Mexico


      Laboratories and Computer Facilities

      In addition to attending formal lectures, mechanical engineering students gain hands-on experience in the laboratory with measurement techniques, test procedures and equipment representative of the type encountered in industry. The laboratories include materials testing, measurements, fluid mechanics, heat transfer, robotics and microcomputers, manufacturing and CAD/CAM, instrumentation and a computer laboratory to which all students have access.


      Courses

      ME 160L. Mechanical Engineering Design I. (3)



      ME 217. Energy, Environment and Society. (2)



      ME 260L. Mechanical Engineering Design II. (3)



      ME 301. Thermodynamics. (3)



      ME **302. Applied Thermodynamics. (3)



      ME 306. Dynamics. (3)



      ME 314. Design of Machinery. (3)



      ME **317L. Fluid Mechanics. (4)



      ME 318L. Mechanical Engineering Laboratory. (4)



      ME **320L. Heat Transfer. (4)



      ME 350. Engineering Economy. (3)



      ME 352L. Materials Laboratory. (1)



      ME 353L. Fluid Mechanics Lab. (1)



      ME 354L. Heat Transfer Laboratory. (1)



      ME 357. Introduction to Mechanical Vibrations. (3)



      ME 360L. Mechanical Engineering Design III. (3)



      ME **365. Heating, Ventilating and Air Conditioning Systems. (3)



      ME 370. Engineering Materials Science. (3)



      ME **380. Analysis and Design of Mechanical Control Systems. (3)



      ME 400 / 500. Numerical Methods in Mechanical Engineering. (3)



      ME 401 / 501. Advanced Mechanics of Materials. (3)



      ME 404 / 504. Computational Mechanics. (3)



      ME 405 / 505. High Performance Engines. (3)



      ME 406L. Formula SAE Racecar Design. (3)



      ME 407. Formula SAE Racecar Fabrication Lab. (3)



      ME 408. Formula SAE Racecar Test Lab. (1)



      ME 416 / 516. Applied Dynamics. (3)



      ME 419/ 519. Theory, Fabrication, and Characterization of Nano & Microelectromechanical Systems (NEMS/MEMS). (3)



      ME 421 / 521. Thermal System Design and Optimization. (3)



      ME 429 / 529. Gas Dynamics. (3)



      ME 451?452. Undergraduate Problems. (1-3, 1-3 to a maximum of 6 ?)



      ME 455. Engineering Project Management. (3)



      ME 456 / 556. Entrepreneurial Engineering. (3)



      ME 459. Mechanical Engineering Design IV. (3)



      ME 460. Mechanical Engineering Design V. (3)



      ME 461 / 561?462 / 562. Special Topics. (1-4, 1-4, no limit ?)



      ME 463. Undergraduate Honors Thesis. (3)



      ME 470 / 570. Microprocessors in Mechanical Systems. (3)



      ME 471 / 571. Advanced Materials Science. (3)



      ME 474 / 574. Modeling, Simulation and Synthesis of Electromechanical Control Systems. (3)



      ME 480 / 580. Dynamic System Analysis. (3)



      ME 481 / 581. Digital Control of Mechanical Systems. (3)



      ME 482 / 582. Robot Engineering. (3)



      ME 483 / 583. Statistical Methods for Improving Product Quality. (3)



      ME 484 [484/584]. Computer Aided Design. (3)



      ME 485 / 585. Modern Manufacturing Methods. (3)



      ME 486 / 586. Design for Manufacturability. (3)



      ME 487 / 587. LEGO? Robotics. (3)



      ME 488 / 588. Design and Manufacturing in Industry. (3)



      ME 500 / 400. Numerical Methods in Mechanical Engineering. (3)



      ME 501 / 401. Advanced Mechanics of Materials. (3)



      ME 504 / 404. Computational Mechanics. (3)



      ME 505 / 405. High Performance Engines. (3)



      ME 506. Boundary Element Methods in Engineering. (3)



      ME 510. Nonlinear Modeling and Analysis. (3)



      ME 512. Introduction to Continuum Mechanics. (3)



      ME 516 / 416. Applied Dynamics. (3)



      ME 519 / 419. Theory, Fabrication, and Characterization of Nano & Microelectromechanical Systems (NEMS/MEMS). (3)



      ME 520. Advanced Thermodynamics I. (3)



      ME 521 / 421. Thermal System Design and Optimization. (3)



      ME 522. Heat Conduction. (3)



      ME 523. Convection. (3)



      ME 529 / 429. Gas Dynamics. (3)



      ME 530. Theoretical Fluid Mechanics I. (3)



      ME 534. Boundary Layers. (3)



      ME 540. Elasticity. (3)



      ME 544. Mechanics of Inelastic Continuum. (3)



      ME 551?552. Problems. (1-3, 1-3 to a maximum of 6 ?)



      ME 556 / 456. Entrepreneurial Engineering. (3)



      ME 559. Design Project. (3)



      ME 561 / 461-562 / 462. Special Topics. (1-4, 1-4, no limit ?)



      ME 570 / 470. Microprocessors in Mechanical Systems. (3)



      ME 571 / 471. Advanced Materials Science. (3)



      ME 574 / 474. Modeling, Simulation and Synthesis of Electromechanical Control Systems. (3)



      ME 580 / 480. Dynamic System Analysis. (3)



      ME 581 / 481. Digital Control of Mechanical Systems. (3)



      ME 582 / 482. Robot Engineering II. (3)



      ME 583 / 483. Statistical Methods for Improving Product Quality. (3)



      ME 585 / 485. Modern Manufacturing Methods. (3)



      ME 586 / 486. Design for Manufacturability. (3)



      ME 587 / 487. LEGO? Robotics. (3)



      ME 588 / 488. Design and Manufacturing in Industry. (3)



      ME 591-592. Seminar. (0-1, no limit ?)



      ME 599. Master?s Thesis. (1-6, no limit ?)



      ME 634. Turbulence and Turbulent Boundary Layer Flow. (3)



      ME 699. Dissertation. (3-12, no limit ?)



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      Office of the Registrar

      MSC11 6325
      1 University of New Mexico
      Albuquerque, NM 87131

      Phone: (505) 277-8900
      Fax: (505) 277-6809