[Intelligent Equipment Technology] 2.Advanced Manufacturing Technologies for Welded Structures-Online Course-CATECP

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[Intelligent Equipment Technology] 2.Advanced Manufacturing Technologies for Welded Structures

Lesson Code: TCEN2025H026

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Academic Hours

4.20hours

Publish Date

Nov 2025

Lecturer

1. Lecturer ZHANG WanyunGuangxi Technological College of Machinery and Electricity

2. Lecturer ZHONG XingheGuangxi Technological College of Machinery and Electricity

3. Lecturer HUANG BinGuangxi Technological College of Machinery and Electricity

4. Lecturer YANG LinGuangxi Technological College of Machinery and Electricity

5. Lecturer XIAO YongGuangxi Technological College of Machinery and Electricity

6. Lecturer ZHANG WeiGuangxi Technological College of Machinery and Electricity

General Introduction

This course serves as a core advanced module for engineering majors such as materials, mechanical, and marine engineering. It focuses on the digitalization, automation, and intelligentization of welded structure manufacturing, systematically introducing advanced welding processes, simulation and modeling techniques, intelligent control strategies,

and quality assurance technologies. The course aims to equip trainees with cutting-edge manufacturing knowledge and the ability to solve complex engineering problems, enabling them to achieve innovative design and reliable fabrication of high-performance welded structures, in alignment with national strategies for high-end equipment manufacturing.

This Course is for

1. Helping trainees systematically master the fundamental principles, process characteristics, and application scopes of advanced welding methods such as laser welding, friction stir welding, and hybrid welding.
2. Enabling trainees to gain an in-depth understanding of the core concepts of digitalized, automated, and intelligent manufacturing for welded structures, including key technologies such as welding robots, flexible manufacturing cells, and digital twins.
3. Familiarizing trainees with the fundamental theories of numerical modeling and simulation of welding processes, and understanding their applications in deformation control, residual stress analysis, and microstructure–property prediction.

Learning Materials

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

Recognized By

Benefits of Learning

1. Knowing the core principles and process characteristics of advanced welding methods such as laser welding (including deep-penetration and heat-conduction modes), electron beam welding (precision joining in vacuum environments), friction stir welding (solid-state joining without molten pools), and hybrid welding (for example, laser–arc hybrid welding).
2. Being capable of operating advanced welding equipment such as laser welding machines, electron beam welding systems, and friction stir welding devices, as well as independently performing parameter settings (e.g., power, speed, focal position) and routine maintenance.

Courses Videos

Introduction.mp4play 1.1.1 Welded Structure Analysis.mp4play 1.1.2 Weld Marking with AutoCAD Software.mp4play 1.1.3 Weld Marking with SolidWorks Software.mp4play 2.1.1 The Basic Knowledge of Shearing Blanking.mp4play 2.1.2 Shearing Blanking Operation.mp4play 2.1.3 CNC Cutting and Blanking Operations.mp4play 2.1.4 Basic Knowledge of Plasma Arc Cutting and Blanking.mp4play 2.1.5 Plasma Arc Cutting and Blanking Operations.mp4play 2.1.6 Basic Knowledge of Laser Cutting and Blanking.mp4play 2.1.7 Operation Process of Laser Cutting and Blanking.mp4play 2.1.8 Fundamental Knowledge of Waterjet Cutting.mp4play 2.1.9 Waterjet Cutting Operation Procedures.mp4play 2.1.10 CNC Edge Processing.mp4play 2.1.11 CNC Edge Processing.mp4play 2.1.12 Robot Flame Cutting and Blanking.mp4play 3.1.1Fundamentals of Stamping and Forming (part 2).mp4play 3.1.2 Stamping Operations.mp4play 3.2.1 Basic Knowledge of Bending and Forming (part 2).mp4play 3.2.2 The Bending and Forming Operation of the Upper Cover Plate of the 906 Excavator Boom.mp4play 3.3.1 Fundamentals of Plate Rolling Forming.mp4play 3.3.2 Plate Rolling Machine Operation.mp4play 4.1.1 Advanced Manufacturing Technologies for Welded Structures(1).mp4play 4.1.2 Advanced Manufacturing Technologies for Welded Structures(2).mp4play 4.1.3 The Clamping Technology of Assembly Welding Clamp.mp4play 4.1.4 Boom Assembly.mp4play 4.2.1 Robot Welding Programming.mp4play 4.2.2 Defects and Quality Control of Robot Welding.mp4play 4.2.3 Robot Welding Inspection Technology.mp4play

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