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Course Criteria
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3.00 Credits
Combustion processes, combustion thermodynamics, and reaction kinetics. Flame ignition and stability limits. Detonation and deflagration waves. Gas phase reactions and solid particle fuel combustion (coal and wastes). Applications to furnaces, incinerators, gasifiers, gas turbines and engines. Prerequisites: MECH 320, 326, and 324.
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3.00 Credits
3 hours. Applied engineering thermodynamics; psychometrics; humidification and dehumidification processes; air cooling processes, heating processes; heat vapor transmission, fluid flow and pressure losses; air conveying and distribution. Prerequisite: MECH 321, (MECH 326 or CEMS 332).
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3.00 Credits
3 hours. Beams on elastic foundations, curved bars, inelastic behavior, instability, introduction to thin plates and shells, introduction to elasticity, energy methods. Prerequisites: MECH 241, MATH 271.
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3.00 Credits
3 hours. An introduction to composite materials with an emphasis on their selection, analysis, and use in modern engineering applications. Advantages and limitations of composite materials, basic concepts and characteristics. Stiffness and strength theories for uniaxial and multidirectional composite materials, with a macromechanical emphasis. Prerequisites: MECH 241, MECH 244 or CEMS 214, MATH 271.
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1.00 - 3.00 Credits
1-3 hours. Self-directed study. Prerequisite: Senior standing and approval of topic by faculty advisor and Dean's Office. Completed Plan of Study and permission of instructor required before registering for independent study.
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3.00 Credits
3 hours. An introduction to linear elastic fracture mechanics, calculation of stress intensity factors. Concepts of fracture, fracture toughness, fracture resistance. Fatigue crack nucleation, crack growth, high and low cycle fatigue, temperature effects, predictive equations. Prerequisites: (MECH 241 or CEMS 251), MATH 271. Courses of Instruction: New York State College of Ceramics 291 MECH 454 - Multiscale Analysis for Deformation and Failure 3 hours. The goal of this course is to develop tools for students to analyze deformation and failure of engineering materials from multiscale points of view. By developing knowledge of micromechanics, meso-mechanics and macro-mechanics students will have a foundation to develop more understanding and useful skill for analysis of elasticity, inelasticity, fracture and fatigue of engineering materials. Prerequisites: (MECH 241 or CEMS 251) MATH 271.
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3.00 Credits
Analysis, synthesis and design of machine elements and systems. Design of specific machine elements will be covered, including shafts, fasteners, springs, bearings, gears, clutches, brakes and flexible mechanical elements. Prerequisite: MECH 364.
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3.00 Credits
3 hours. Analysis of manufacturing processes. Topics include casting, molding, forging, sheet-metal working, machining, joining, and many others. Plant tours are a required part of the course. Prerequisites: (MECH 244 or CEMS 214), ENGR 305.
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3.00 Credits
3 hours. Mathematical modeling of physical systems and simulation of linear system responses. System response to varied inputs are studied using classical techniques. Laplace transforms and modeling and simulation software. Prerequisites: (MECH 326 or CEMS 332) and (ELEC 220 or CEMS 221).
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3.00 Credits
3 hours. Individual and group comprehensive design projects employing basic and professional approaches to planning, organizing, judgmental and economic factors. Integrative aspects of creative design and analysis, interdisciplinary systems. Emphasis on technical communication skills. Prerequisite: Senior standing and permission of faculty.
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