[Polymer Materials Intelligent Manufacturing Technology] 1.Polymer Physics-Online Course-CATECP

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[Polymer Materials Intelligent Manufacturing Technology] 1.Polymer Physics

Lesson Code: TCEN2025H031

Clicks：

LIKE

Academic Hours

4.80hours

Publish Date

Nov 2025

Lecturer

1. Lecturer LUO WeiSichuan Vocational College of Chemical Technology

2. Lecturer LIU ZhiminSichuan Vocational College of Chemical Technology

3. Lecturer WANG ShengdaSichuan Vocational College of Chemical Technology

4. Lecturer HUANG KunSichuan Vocational College of Chemical Technology

5. Lecturer GAN QiaoSichuan Vocational College of Chemical Technology

6. Lecturer MA ZhengluSichuan Vocational College of Chemical Technology

General Introduction

This course focuses on developing students’ core ability to analyze the intrinsic relationships among polymer structure, properties, and applications. The course systematically introduces the structure of polymers

and their mechanical, thermal, and rheological properties. It provides a solid theoretical foundation for future work in polymer material design, molding and processing, and quality control.

This Course is for

1. Helping trainees master basic knowledge of polymer chain structure, condensed-state structure, and polymer solutions.
2. Helping trainees understand the relationships among polymer structural characteristics, molecular motion, and physical and mechanical properties and performance.
3. Enabling trainees to apply theories of molecular motion to explain phenomena in polymer science and guide practical applications.

Learning Materials

1. Corresponding PPT
2. Online Course Video
3. Simulation Question Banks

Recognized By

Benefits of Learning

1. Being able to apply polymer solution theory to select suitable solvent systems based on specific production or application requirements.
2. Being able to analyze mechanical relaxation problems occurring during polymer processing and application from the perspective of molecular structure and molecular motion.
3. Knowing how to select processing parameters for polymer materials according to polymer chain motion characteristics and aggregation state theory.
4. Having the ability to design experimental plans based on research objectives, and systematically explore the mechanisms and patterns by which molecular weight and crystallinity influence physical and mechanical properties such as strength, hardness, and heat resistance.
5. Being able to use fundamental theories of polymer physics to analyze practical problems encountered in the design, preparation and processing of polymer materials, and develop targeted solutions.

Courses Videos

1.1.1 Course Nature, Main Content, and Basic Concepts.mp4play 1.1.2 Characteristics of Polymer Structure.mp4play 1.1.3 Composition and Structure of Polymer Chains.mp4play 1.1.4 Conformation of Polymer Chains.mp4play 1.2.1 Conformation, Segments, and Flexibility.mp4play 1.2.2 Factors Affecting Chain Flexibility.mp4play 1.3.1 Intermolecular Forces.mp4play 1.3.2 Basic Concepts of Crystals.mp4play 1.3.3 Common Crystalline Forms of Polymers.mp4play 1.3.4 Factors Affecting Polymer Crystallization Ability.mp4play 1.3.5 Crystallinity and Crystallization Rate.mp4play 1.3.6 The Effect of Crystallization on Polymer Properties.mp4play 1.4.1 Amorphous Polymers.mp4play 1.4.2 Polymer Orientation.mp4play 1.4.3 Effect of Polymer Orientation on Properties.mp4play 1.4.4 Types and Applications of Polymer Orientation.mp4play 2.1 Characteristics and Process of Polymer Dissolution.mp4play 2.2 Principle of Polar Similarity and Solvation Principle.mp4play 2.3 Principle of Similar Solubility Parameters.mp4play 2.4 Polymer Concentrated Solutions.mp4play 3.1.1 Characteristics of Polymer Thermal Motion - Multiplicity.mp4play 3.1.2 Characteristics of Polymer Thermal Motion - Time and Temperature Dependence.mp4play 3.2.1 The Three States of Polymers.mp4play 3.2.2 Two Transitions.mp4play 3.2.3 Temperature-Deformation Curve Analysis.mp4play 3.3 Glass Transition Temperature.mp4play 4.1 Overview of the Mechanics of Materials.mp4play 4.2 Introduction to Material Strength.mp4play 4.3 Polymer Stress-Strain Curve.mp4play 4.4 Fracture and Strength of Polymers.mp4play 4.5 Plasticization and Reinforcement of Polymers.mp4play 5.1 Introduction to Polymer Rheology.mp4play 5.2 Newtonian and Non-Newtonian Fluids.mp4play 5.3 Discussion on Shear Viscosity (1).mp4play 5.4 Discussion on Shear Viscosity (2).mp4play

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