Course Outline
Chain structure of polymer molecules, configurations and conformation of polymer chain, molecular weight and molecular size, amorphous state and crystalline state of solid polymers, models of chain conformation in amorphous state and crystalline state, crystalline morphology, thermal transitions, crystallization and kinetics of crystallization, thermal transitions, thermodynamics of fusion, solution process, thermodynamics of mixing and phase separation, viscoelasticity, time-temperature superposition, mechanical behavior, failure behavior, thermal properties, electrical properties, and optical properties
Course Responsibility to Program Learning Outcome
PLO1: An ability to apply knowledge of mathematics, science, engineering fundamentals for petrochemical and polymer engineering procedures or processes.
PLO2: An ability to analyze petrochemical and polymer engineering problems: Identify, formulate and research literature reaching the solution for complex engineering problems.
PLO8: An ability to understand and consider the impact of professional petrochemical and polymer engineering work to economics society environmental and sustainability
PLO11: Recognize the need for, and have ability to engage in life-long learning
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CLO1:Be able to: classify and explain basic chain structure conformation, configuration and stereochemistry of polymer chains |
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CLO2: Be able to interrelate structure to the properties of polymer |
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CLO3: Be able to explain influence of factors/parameters on properties of polymers |
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CLO4: Be able to use equation for predicting thermal transitions and solvation phenomena |
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CLO5: Be able to demonstrate information on environmental and societal impact from source/resource consumption for polymeric material production to end use product |
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CLO6: Be able to search relevant information from open source. |
