Description:
Apply chemical engineering principles to polymer and materials systems. Structures and properties of metals, ceramics and polymers. Thermodynamics,synthesis, rubber elasticity, viscoelasticity, kinetics, rheology, and processing of polymers systems. Applications of statistics and problem-solving skills to materials systems.
Semester:
Spring of every year
Credits:
Total Credits: 3 Lecture/Recitation/Discussion Hours: 3
Prerequisite:
CHE 311 and CHE 321 and CHE 431 and CEM 352
Description:
Application of chemical engineering principles to polymer and materials systems. Structures and properties of metals, ceramics and polymers. Thermodynamics, synthesis, rubber elasticity, viscoelasticity, kinetics, rheology, and processing of polymers systems. Application of statistics and problem-solving skills to materials systems.
Semester:
Spring of every year
Credits:
Total Credits: 3 Lecture/Recitation/Discussion Hours: 3
Prerequisite:
CHE 311 and CHE 321 and CHE 431 and CEM 352
Description:
Application of chemical engineering principles to polymer and materials systems. Structures and properties of metals, ceramics and polymers. Thermodynamics, synthesis, rubber elasticity, viscoelasticity, kinetics, rheology, and processing of polymers systems. Application of statistics and problem-solving skills to materials systems.
Semester:
Spring of every year
Credits:
Total Credits: 3 Lecture/Recitation/Discussion Hours: 3
Prerequisite:
{(CHE 321 and CHE 431) or (MSE 360 and MSE 370)} and (CHE 311 or ME 332 or CE 321) and (CEM 252 or CEM 352)
Description:
Application of chemical engineering principles to polymer and materials systems. Structures and properties of metals, ceramics and polymers. Thermodynamics, synthesis, rubber elasticity, viscoelasticity, kinetics, rheology, and processing of polymers systems. Application of statistics and problem-solving skills to materials systems.