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ME 159: High Efficiency HVAC
3.00 Credits
California State University-Sacramento
Starts with a review of the theory and design of HVAC systems. Recent improvements and new developments in cooling and heating equipment are studied in detail. Computer models such as the Trane TRACE Program are used to size an HVAC system with an emphasis on high efficiency. Computer based controls and energy management systems are discussed and demonstrated. Field trips to energy efficient installations are included. Prerequisite: ME 156 or instructor permission. Graded: Graded Student. Units: 3.0
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ME 165: Introduction To Robotics
3.00 Credits
California State University-Sacramento
Fundamentals of design and application of industrial robotics. Manipulator kinematics, trajectory planning and controller design, design of end effectors and actuators, sensors, programming languages, and machine vision. Applications in manufacturing, approach to implementing robotics, economic analysis for robotics. Lecture two hours; laboratory three hours. Prerequisite: ME 114, ME 115. Graded: Graded Student. Units: 3.0
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ME 171: Modeling and Simulation of Mechatronics and Control Systems
3.00 Credits
California State University-Sacramento
Modeling and Simulation of Mechatronics and Control Systems. Computer modeling and mathematical representation of mechanical, electrical, hydraulic, thermal, and electronic systems or combinations of these. Development of system design criteria and solutions using computer simulation. Use of state of the art automated modeling and simulation methods to build models of multi-energy mechatronics and control systems. Vibration concepts, applied, natural frequencies, eigenvectors, and solution of differential equations using computer simulation. Introduction to state variable feedback control systems. A design project is required. Prerequisite: ENGR 110, ME 105. Graded: Graded Student. Units: 3.0
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ME 172: Control System Design
3.00 Credits
California State University-Sacramento
Use of mathematical models for the generation of equations of motion for mechanical and electrical systems. Evaluation of single and multiple degrees of freedom systems in the time and frequency domain. Topics include feedback control systems, Laplace transform, state space representation, transfer functions, error analysis, stability of control systems and system response. Automatic control system design using root locus and frequency response methods. Design of compensating controls using state of the art software and automation tools. Introduction to digital control. Prerequisite: ME 171. Graded: Graded Student. Units: 3.0
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ME 172 - Control System Design
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ME 173: Applications of Finite Element Analysis
3.00 Credits
California State University-Sacramento
Mathematical fundamentals of Finite Element Modeling (FEA). Engineering analysis and design of structural members, and machinery components using FEA models. Model generation using computer graphics. Computer solutions of static, dynamic, heat transfer, stress analysis, fluid mechanics and structural problems. Prerequisite: ENGR 112, ME 105. Graded: Graded Student. Units: 3.0
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ME 176: Product Design and Pro/Engineer
3.00 Credits
California State University-Sacramento
Familiarizes students with digital product development using Pro/ENGINEER and Working Model. Emphasis is on Pro/ENGINEER philosophy of parametric design. Also covers component and assembly design, basic drawing creation, and kinematic simulation using Working Model. Team product design project investigating the effects of variations in geometry, dimensions, and material selection. Lecture two hours; laboratory three hours. Prerequisite: ENGR 6, ME 105 and ME 116. Graded: Graded Student. Units: 3.0
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ME 176 - Product Design and Pro/Engineer
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ME 180: Mechanical Properties of Materials
3.00 Credits
California State University-Sacramento
Principles of mechanical properties of metals, including strength under combined loads, fatigue, and fracture mechanics. Laboratory includes study of strengthening mechanisms, and principles of experimental stress analysis. Lecture two hours; Laboratory three hours. Prerequisite: ENGR 112 Graded: Graded Student. Units: 3.0
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ME 180 - Mechanical Properties of Materials
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ME 182: Introduction to Composite Materials
3.00 Credits
California State University-Sacramento
Properties, mechanics, and applications of anisotropic fiber-reinforced materials with an emphasis on the considerations and methods used in the design of composite structures. Prerequisite: ME 180. Graded: Graded Student. Units: 3.0
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ME 182 - Introduction to Composite Materials
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ME 184: Corrosion and Wear
3.00 Credits
California State University-Sacramento
Introduction to the phenomena of corrosion and wear, including the electro-mechanical bases of corrosion, examples of corrosion of iron, steel and stainless steels, and prevention of corrosion. Fundamentals of wear are covered including effects of loads, material properties, and lubrication on wear rates. Prerequisite: ME 180. Graded: Graded Student. Units: 3.0
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ME 186: Fracture Mechanics in Engineering Design
3.00 Credits
California State University-Sacramento
Fracture mechanics approach to mechanical design; role of microstructure in fracture toughness and embrittlement; environmentally-induced cracking under monotonic and fatigue loads; laboratory techniques; service failures in various industries and failure mechanisms. Prerequisite: ME 180. Graded: Graded Student. Units: 3.0
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ME 186 - Fracture Mechanics in Engineering Design
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