1. Course Objectives.
Through the Xi of this course, you will be able to:
1.Master the basic operation methods and common functions of SOLIDWORKS2020;
2.Learn Xi application skills of design modules such as mechanical parts, assemblies, and engineering drawings
3.Learn about advanced features of SOLIDWORKS 2020, such as motion**, finite element analysis, and more
4.Master the integration methods of SOLIDWORKS2020 with other software;
5.Improve your design capabilities and productivity.
Second, the course content.
This course will be divided into the following sections:
1.SOLIDWORKS2020 basic operations.
This section will introduce the basic operation methods such as installation, startup, interface, and file management of SOLIDWORKS 2020 to help you quickly master the use of the software.
2.Mechanical parts design.
This section will introduce the common mechanical parts design skills of SOLIDWORKS2020, including extrusion, rotation, scanning, filleting, chamfering and other operations, to help you quickly design various mechanical parts.
3.Assembly design.
This section will introduce the assembly design features of SOLIDWORKS 2020, including component constraints, assembly animations, interference checks, and other operations to help you better understand and design mechanical systems.
4.Drawing design.
This section will introduce the drawing design features of SOLIDWORKS2020, including view layout, dimensioning, technical requirements, etc., to help you quickly and accurately complete the drawing design.
5.Advanced features and applications.
This section will introduce the advanced features of SOLIDWORKS 2020, such as motion**, finite element analysis, and more, as well as integration methods with other software to help you better accomplish complex design tasks.
3. Course arrangement.
This course is an online course, divided into 10 class hours, each class duration is 1 hour, the specific arrangement is as follows:
Lesson 1: Introduction to SOLIDWORKS2020 basic operations and interfaces
Lesson 2: Fundamentals of Mechanical Parts Design;
Lesson 3: Extrusion and Rotation Feature Applications;
Lesson 4: Scanning and Fillet Feature Application;
Lesson 5: Chamfer and Hole Feature Application;
Lesson 6: Assembly Design and Constraint Application;
Lesson 7: Assembly Animation and Interferometric Check Applications;
Lesson 8: Application of Drawing View Layout and Dimensioning;
Lesson 9: Preparation and application of technical requirements and bills of materials;
Session 10: Advanced functions and applications (motion**, finite element analysis, etc.).