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MECHANICAL ENGINEERING 421: Computer Aided Engineering Design
3.00 Credits
University of Bridgeport
This course applies 3-D CAD system e.g., Pro E to industrial product and system design. These CAD systems are very practical and powerful 3-D CAD tools and they have been widely used in the industry. The first half of the class focuses on learning fundamentals of the 3-D system, its popular applications and its related techniques. The special topics of design concept are also included. The second half covers several practical projects. Students will combine the design techniques with the real project and use 3-D tools to design the product or part of industrial system. All projects will be presented by students in class. Pre-requisites: Engineering 111, Physics 111. 3 lecture hours; 3 semester hours
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MECHANICAL ENGINEERING 421 - Computer Aided Engineering Design
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MECHANICAL ENGINEERING 422: Advanced Computer Aided Project Design
3.00 Credits
University of Bridgeport
This advanced course focuses on some hot and very practical topics in today's industrial design applications. Also, some useful knowledge, such as PLC (Program Logic Control), calculation and selection of industrial motors, fundamentals of automation, sensor technology, and selection of material on different industrial applications are included. Several more complicated projects in this class will help students learn how to manage the different engineering projects and understand all related design issues which will improve the future production and manufacturing process. Pro-E will be used as a 3-D CAD tool to design these advanced engineering projects. All projects should be presented by students in the class. Pre-requisites: Mechanical Engineering 421. 3 lecture hours; 3 semester hours
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MECHANICAL ENGINEERING 422 - Advanced Computer Aided Project Design
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MECHANICAL ENGINEERING 423: Computer Aided Manufacturing and NC Machining
3.00 Credits
University of Bridgeport
This course applies manufacturing and various numerical controlled software for designing computer-aided manufacturing and NC machining systems, processes and algorithms. This course is heavy in implementation of various manufacturing technologies and programming of NC machines. Pre-requisites: Engineering 111, Physics 111, Mechanical Engineering 421. 3 lecture hours; 3 semester hours
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MECHANICAL ENGINEERING 423 - Computer Aided Manufacturing and NC Machining
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MECHANICAL ENGINEERING 430: Design & Innovation
3.00 Credits
University of Bridgeport
The objective of this course is to convey a sense of Design and Innovation in the development of products. To accomplish this the class shall review a number of case studies and participate in the design of a project. In addition to the semester project we shall discuss a number of topics of concern to Design and Engineering through illustrated talks (slides/tapes) and when available with guest designers and engineers. Pre-requisites: Engineering 111, Engineering 300. 3 lecture hours; 3 semester hours
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MECHANICAL ENGINEERING 430 - Design & Innovation
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MECHANICAL ENGINEERING 440: Ergonomic Factors in Design
3.00 Credits
University of Bridgeport
This course introduces the student to the concepts of ergonomics. Ergonomics is the study of fitting the workplace and devises to the capabilities of the human worker. Students will have an understanding of the beginnings and evolution of the field of ergonomics. They will learn to recognize risk factors associated with repetitive stress disorders (e.g., carpal tunnel syndrome) and potential sprain/strain injuries as well as be familiar with the body areas affected. This course covers principles of physiology and biomechanics and how they apply to workstation and tool design. Pre-requisites: Engineering 111. 3 lecture hours; 3 semester hours
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MECHANICAL ENGINEERING 440 - Ergonomic Factors in Design
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MECHANICAL ENGINEERING 452: Advanced Vibrations
3.00 Credits
University of Bridgeport
Brief review of systems with one and two degrees of freedom. Rayleigh's method. Application of Lagrangian and matrix methods to discrete systems with many degrees of freedom; normal mode theory; vibrations of finite continua; solution methods and mathematical properties. Numerical and computer methods. Sensitivity analysis. Applications to machines and structures. Pre-requisites: Mechanical Engineering 315 or equivalent. 3 lecture hours; 3 semester hours
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MECHANICAL ENGINEERING 452 - Advanced Vibrations
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MECHANICAL ENGINEERING 453: Finite Element Methods in Mechanical Engineering
3.00 Credits
University of Bridgeport
Formulation of finite element characteristics using energy methods. Convergence criteria. Consistent load and mass matrices. In-plane and axisymmetric analysis using simple and higher-order triangular and quadrilateral elements. Finite element analysis of plate-bending problems. Isoparametric concepts and formulation; applications to two-and threedimensional stress analysis. Topics from the following areas will be chosen as time allows: buckling and vibration studies using discrete element techniques; finite element applications in fluid flow and heat transfer. Prerequisite: Mechanical Engineering 450 or permission of instructor. Pre-requisites: Basic Structural Mechanics, Math 214, Math 215, Engineering 111 or consent of instructor. 3 lecture hours; 3 semester hours
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MECHANICAL ENGINEERING 453 - Finite Element Methods in Mechanical Engineering
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MECHANICAL ENGINEERING 454: Advanced Dynamics
3.00 Credits
University of Bridgeport
Orthogonal coordinate systems and their transformations. Particle kinematics in inertial and noninertial rotating coordinate systems. Dynamics of systems of particles and rigid bodies. Virtual work and generalized coordinates. Lagrange's equations and Hamilton'sprinciple for holonomic and non-holonomic systems with applications. Lagrange multipliers. Prerequisites: Under-graduate Dynamics, Mathematics 301. 3 lecture hours; 3 semester hours
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MECHANICAL ENGINEERING 454 - Advanced Dynamics
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MECHANICAL ENGINEERING 456: Mechanics of Composite Materials
3.00 Credits
University of Bridgeport
Introduction to the mechanics of laminated filamentary composites. Prediction of stiffness and strength of laminated plates. Applications. Prerequisites: Undergraduate Strength of Materials, Mechanical Engineering 223. 3 lecture hours; 3 semester hours
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MECHANICAL ENGINEERING 456 - Mechanics of Composite Materials
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MECHANICAL ENGINEERING 458: Fatigue and Fracture Mechanics
3.00 Credits
University of Bridgeport
Brittle fracture of structures, elastic stress analysis of cracked components, static and dynamic failures, plane stress and plane strain, elastic-plastic fracture mechanics, fatigue crack growth and life prediction under constant and variable amplitude loading, environmental effects. Term work is mainly design problems and is computer oriented. Pre-requisites: Undergraduate Strength of Materials, Mechanical Engineering 223. 3 lecture hours; 3 semester hours; 1 design semester hour
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MECHANICAL ENGINEERING 458 - Fatigue and Fracture Mechanics
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