Department of Polymer Materials

Core Courses

• General Chemistry

Introduction of chemistry, chemical bonding, periodic table, nomenclature, chemical reaction equations, gases, solutions , acids and bases, chemical equilibrium and oxidation-reduction reactions.

• General Physics

The physics is fundamental education of applied science. The emphasis of study is kinematics, mechanics, thermodynamics, optics and electronics.

• Calculus

This course introduces students to understand the fundamental theorems of calculus. The content includes the limit and continuity of functions, derivatives rules for differentiation, integration and its applications.

• Engineering Mathematics

This course introduces students to learn those areas of mathematical topics: Ordinary Differentials, Laplace transforms, Linear algebra, Vector calculus, Fouriers analysis and Partial differential equations.

• Polymer Materials Science

Introduce polymer materials including rubbers, plastics, fibers, paints, adhesives, etc.

• Introduction of Material Science

Teach the structure and composition of materials, solidification of materials, phase diagrams, performance, functional polymer, composite and nanomaterials.

• Organic Chemistry

Introduce the basic properties, sources and synthesis of organic compounds as well as the principles and applications of organic chemistry.

• Experiments in Organic Chemistry

Introduce the basic experiments in organic chemistry. Students can learn how to synthesize organic compounds and how to use instruments.

• Physical Chemistry

Physical chemistry is the application of physical methods to chemical problems. It is organized into thermodynamics, kinetic theory, electrochemistry, quantum mechanics, chemical kinetics, and classical statistical mechanics.

• Instrumental Analysis

Introduce various analytical instruments and their principles, including: GC, HPLC, GPC, UV-Vis, IR, Raman, AA, NMR, MS, TGA, DSC, DMA, XRD and electroanalytical chemistry.

• Polymer Chemistry

After an introduction to polymers, the mechanisms of polymerization and their effect on the engineering design of reactors are elucidated. The succeeding texts consider polymer characterization, polymer thermodynamics, and the behavior of polymer as melts, solutions, and solid around the glass transition temperature. Also, crystallization, diffusion of polymers, and polymer processing are examined.

• Experiments of Polymer Chemistry

Experiments of polymer chemistry include the physical and organic chemistry of the reaction by which polymer molecules are synthesized. Several types of polymerization reactions step, radical, suspension and ring-opening polymerization are the main text in the course.

• Polymer Physics

Explain the relation between physical proprieties and microstructure, morphology and crystallite of polymer solutions or materials and teaches the thermodynamics of crystallization, the crystallization kinetics theories of polymers.

• Polymeric Surface Chemistry

This course covers analysis, phenomenon and electronic properties of interface, adhesion, adsorption, reaction of interface and surface chemistry of nanomaterials etc.

• Mechanics of Materials

Introduce the deformation behaviors and mechanisms of bars, beams, and columns subjected to tensile, shear, and torsional stresses.

• Polymer processing

Introduce the primary processing methods and principles of polymer, including blending, extrusion molding, injection molding, blowing molding, and foaming. Polymer rheology and processing additives are also introduced.

• Test and Analysis of Polymers

Introduction to the principle of instrumental analysis of polymer, such as XRD, SEM, DSC, DMA and light scanning, and explains the relation between physical property of polymer and analysis for students to elevate their knowledge in the analytical instrument and its basic design principles.

• Experiment of Test and Analysis of Polymers

Compare the classical and current instrumental analysis for polymers, such as XRD, SEM, DSC, DMA and light scanning. Elevate student knowledge in the analytical instrument technique and its basic design principles.

• Nanoscience

Introduce the development of nanoscience, and teach the preparation, application, and process of nanomaterials to students.

• Introduction to Cleaner Production

Assist student to understand the clean production technology and the causes of chemical disasters and pollution, and emergency response technology; which include pollution prevention and treatment, clean production and environmental management techniques.

• Project Study

Under the personal guidance of professor, students learn how to study, write and publish a paper.