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Course Criteria
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3.00 Credits
LEC. 3. Pr., CHEM 2030 or CHEM 2070. Fundamentals of polymers: terminology, synthesis, structure, molecular weight, transitions of state, properties and uses.
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4.00 Credits
LEC. 3, LAB. 3. Pr., PFEN 3100. Characteristics and flow properties of polymers, film and fiber extrusion, molding technology, polymer material selection and processing.
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3.00 Credits
LEC. 2, LAB. 3. Pr., PFEN 2270. Theory and application of mechanical, physical and chemical measurement of fiber, yarn and fabric properties. Engineering principles of testing instrumentation. Fall.
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4.00 Credits
LEC. 3, LAB. 3. Pr., PFEN 3100 or PFEN 3500. The fundamental aspects of preparation, coloration and finishing processes of fibrous materials, process control and environmental aspects. Spring.
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3.00 Credits
LEC. 3. Pr., PFEN 3100. Exploration of the relationships between the chemical structure, properties and uses of polymers and fibers. Emphasis on the importance of judicious material selection for particular end use applications. Spring.
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4.00 Credits
LEC. 3, LAB. 3. Pr., PHYS 1610, PFEN 3500. Study of the major techniques for the physical characterization of polymers. Topics to be covered include molecular weight determination, spectroscopy (light, vibrational, nuclear magnetic resonance, electron spin resonance), X-ray diffraction, microscopy (light, electron), optical methods, and thermal analysis.
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2.00 Credits
LEC. 2. Pr., PFEN 3100. Fundamental aspects of natural, biodegradable polymers, including fibers, adhesives, films and coatings, their synthesis, their structure/properties relationships, and the microbiology of their degradation.
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4.00 Credits
LEC. 3, LAB. 3. Pr., PFEN 2270. Design and applications of high performance industrial fibrous structures for civil engineering, architecture and construction, filtration, medical, military and defense, pulp and paper industry, safety and protection, sports and recreation, transportation, agriculture and other industries. Fall.
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3.00 Credits
LEC. 3. Pr., ENGR 2050 and ENGR 2070. Analysis of mechanical behavior and physical properties of flexible structures such as fibers, yarns and fabrics. The influence of geometric characteristics and physical properties on mechanical behavior. Fall.
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3.00 Credits
LEC. 3. Pr., ENGR 2050 and ENGR 2070. Material properties and manufacture of fiber reinforced materials; perform structures such as weaves and braids, analysis, design methodology and applications. Spring.
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