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Course Criteria
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4.00 Credits
Continuation of CBEMS140A covering mass transfer operations such as distillation, absorption, extraction. Rate and equilibria studies in simple chemical systems with and without reaction. Study of chemical process. Prerequisites: CBEMS130, CBEMS135, CBEMS140A. (Design units: 3)
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5.00 Credits
Application of chemical engineering science techniques to design of chemical processes. Introduction to systematic design of separations and the integration of energy requirement. Integration of process economics and optimization. Consideration of retrofit design, design of nontraditional chemical processes, process safety. Prerequisites: CBEMS110, CBEMS120B or CBEMS125C, CBEMS130. CBEMS145 and CBEMS149A may not both be taken for credit. (Design units: 5)
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3.00 Credits
Introduction to process design; flow sheets for chemical processes; synthesis of multicomponent separation sequences and reaction paths; synthesis of heat exchange networks; computer-aided design and simulation of processes and components; process economics; process safety; environmental impacts. Prerequisites: CBEMS110, CBEMS125C, CBEMS130. CBEMS149A and CBEMS145 may not both be taken for credit. (Design units: 2)
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3.00 Credits
Application of chemical engineering basics to practical design problems; design case studies; a major team design project with progress reports, oral presentation, and a technical report with engineering drawings and economics. Prerequisite: CBEMS149A. (Design units: 3)
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4.00 Credits
An introduction to physical aspects of polymers, including configuration and conformation of polymer chains and characterization techniques; crystallinity visoelasticity, rheology and processing. Prerequisites: Chemistry 1A-B-C and ENGR54, or consent of instructor. (Design units: 1)
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4.00 Credits
Principles governing structure and mechanical behavior of materials, relationship relating microstructure and mechanical response with application to elasticity, plasticity, yielding, necking, creep, and fracture of materials. Introduction to experimental techniques to characterize the properties of materials. Design parameters. Prerequisite: ENGR54. Same as MAE156. (Design units: 2)
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1.00 Credits
Introduction to experimental techniques to characterize mechanical properties of materials. Emphasis on the correlations between property and microstructure. Experiments include: plastic stability in tension, effect of grain size and flow stress at low and high temperatures, strain rate effects, impact test, superplasticity, creep of materials. Corequisite: CBEMS155. Prerequisite: ENGR54.
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3.00 Credits
Introduction to fiber-reinforced composites for mechanical applications. Properties of reinforcing fibers. Manufacture of fibers and composites. Micromechanics of fiber composites. Strength criteria and failure modes. Macromechanics in design of laminated composite structures. Prerequisites: ENGR54 and ENGR150. (Design units: 3)
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3.00 Credits
A technical elective for students interested in the materials area. Topics covered include structure and properties of ceramics and design with ceramics. Prerequisite: ENGR54. (Design units: 1)
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3.00 Credits
Stress and strain analysis, plasticity equations, yielding, integration of plasticity equations, plastic instability, application of plasticity theory to some forming processes. Prerequisites: ENGR54, ENGR150, and MAE30. (Design units: 1)
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