课程门户-章节详情

Engineering Graphics（2020/02）-for...

宋洪侠

1 Introduction
- ● Objectives and tasks
- ● 1.1 General introduction
  - ● 1.1.1 Subject introduction
  - ● 1.1.2 Introduction to design circle
  - ● 1.1.3 Basic tasks
  - ● 1.1.4 Learning methods
- ● 1.2 Basic knowledge of projection
  - ● 1.2.1 Concepts of projection
  - ● 1.2.2 Classification of projection
  - ● 1.2.3 Quadrants/Projection angle.
  - ● 1.2.4 Commonly-used drawings
  - ● 1.2.5 Projection of point
  - ● 1.2.6 Projection of lines.
  - ● 1.2.7 Projection of planes
  - ● 1.2.8 Examples
  - ● section test
- ● 1.3 Basic knowledge of drawing
  - ● 1.3.1 Line types
  - ● 1.3.2 The use of compass
  - ● 1.3.3 Draw regular polygon
  - ● 1.3.4 Basic dimensioning knowledge
  - ● 1.3.5 Dimensioning examples
  - ● section test
- ● Reading materials-textbook
- ● Homework pages
Lines and planes
- ● Objectives and tasks 12
- ● Objectives and tasks 12+
- ● Lines/planes
- ● Objectives and tasks 13
- ● Lines/Planes and transform
- ● Homework 12 pages
- ● Homework 12+ pages
- ● Homework 13 pages
2 Basic solids
- ● Objectives and tasks
- ● 2.1 Polyhedra
  - ● 2.1.1 Prism
  - ● 2.1.2 Pyramid
  - ● 2.1.3 Views of Prism
  - ● 2.1.4 Views of Pyramid
- ● 2.2 Regular solids of revolution
  - ● 2.2.1 Cylinder
  - ● 2.2.2 Cone
  - ● 2.2.3 Sphere
  - ● 2.2.4 Torus
- ● 2.3 Coaxial Revolving Solids
- ● 2.4 Solids of Extrusion
- ● 2.5 Sweeping Solids
- ● 2.6 Lofting Solids
- ● 2.7 Determine points/lines on solid surface
  - ● 2.7.1 Example 1
  - ● 2.7.2 Example 2
- ● Section tests
- ● Homework pages
3 Intersection
- ● Objectives and tasks
- ● 3.1 Between plane and solid
  - ● 3.1.1 Split a solid of extrusion
    - ● 3.1.1.1 Example
    - ● 3.1.1.2 Demo-split polyhedron
  - ● 3.1.2 Split a cone
  - ● 3.1.3 Split a cylinder
  - ● 3.1.4 Examples-split solids
    - ● 3.1.4.1 Example 1
    - ● 3.1.4.2 Example 2
- ● 3.2 Between polyhedron and cylinder
  - ● 3.2.1 Example-cubiod and cone
- ● 3.3 Between two cylinders
  - ● 3.3.1 Example
- ● 3.4 Special cases
- ● 3.5 Demo of modelling
- ● Section tests
- ● Homework pages
Tutorial-solids and intersection
- ● 1. Typical Questions:
  - ● Question 1-asertaining visibility
  - ● Question 2-lines on conical urface
  - ● Question 3-lines on spherical surface
  - ● Question 4-truncated pyramid and projection transform
  - ● Question 5-intersection-prism and cylinder
  - ● Question 6-intersection between two cylinders
  - ● Question 7-intersection-prism and sphere
  - ● Question 8-intersection about U-shape cylinder
- ● 2. Composite intersection
4 Pictorial drawing
- ● Objectives and tasks
- ● 4.1 Introduction
- ● 4.2 Isometric drawing
  - ● 4.2.1 Method of coordinate value
  - ● 4.2.2 Method of analysis of solids
  - ● 4.2.3 Example of freehand sketching
  - ● 4.2.4 Isometric drawing of cylinder
  - ● 4.2.5 Isometric drawing of truncated cylinder
  - ● 4.2.6 Isometric drawing of an object
- ● 4.3 Cabinet drawing
- ● section test
- ● Homework pages
5 Objects-drawing
- ● Objectives and tasks
- ● 5.1 Introduction
- ● 5.2 Review about basic solids
- ● 5.3 Relationship of adjacent surfaces
- ● 5.4 Review of alignment rule
- ● 5.5 Introductin to Analysis of Solids
- ● 5.6 Drawing steps of principal views
  - ● 5.6.1 Identify front view
  - ● 5.6.2 Determine datum lines
  - ● 5.6.3 Drawing steps in details
  - ● 5.6.4 Examples
- ● Section tests
- ● Homework pages
6 Objects-reading
- ● Objectives and tasks
- ● 6.1 Introduction
- ● 6.2 Outlines of reading drawings
- ● 6.3 Application of Analysis of Solids
  - ● 6.3.1 Example 1
  - ● 6.3.2 Example 2
- ● 6.4 Analysis of Lines and Planes
  - ● 6.4.1 Example
- ● 6.5 Summary
- ● section tests
- ● homework pages
7 Objects-dimensioning
- ● Objectives and tasks
- ● 7.1 Introduction
- ● 7.2 Essential requirements
- ● 7.3 Principles of dimensioning
- ● 7.4 Details of dimensioning
  - ● 7.4.1 Four elements
  - ● 7.4.2 Dimension figures orientation
  - ● 7.4.3 Dimensioning for circles&arcs
  - ● 7.4.4 Dimensioning for small size
  - ● 7.4.5 Angular dimensions
- ● 7.5 Dimensioning for basic solids
- ● 7.6 Commonly-used symbols
- ● 7.7 General requirements
  - ● 7.7.1 Completeness
  - ● 7.7.2 Clarity
  - ● 7.7.3 Rationality
- ● 7.8 Examples
  - ● 7.8.1 Typical example
  - ● 7.8.2 Special cases
  - ● 7.8.3 General example 1
  - ● 7.8.4 General example 2
  - ● 7.8.5 General example 3-comprehensive
- ● Section tests
- ● Homework pages
8 Objects-reading challenge
- ● 8.1 Problems of missing lines
- ● 8.2 Problems of missing views
  - ● 8.2.1 Problem 1
  - ● 8.2.2 Problem 2
  - ● 8.2.3 Problem 3
- ● 8.3 Challenging problems
  - ● 8.3.1 Problem 1
  - ● 8.3.2 Problem 2
  - ● 8.3.3 Problem 3
  - ● 8.3.4 Problem 4
9 Representations for workpieces (1)
- ● Objectives and tasks
- ● 9.1 Views
  - ● 9.1.1 Six principal views
  - ● 9.1.2 Views of alternate positionApplication
    - ● 9.1.2.1 Example
  - ● 9.1.3 Partial views
    - ● 9.1.3.1 Example
    - ● 9.1.3.2 How to draw break lines
  - ● 9.1.4 Auxiliary views
    - ● 9.1.4..1 Example
  - ● 9.1.5 Third-angle projection
- ● 9.2 Sectional views
  - ● 9.2.1 Introduction
  - ● 9.2.2 Drawing steps
  - ● 9.2.3 Views annotation
  - ● 9.2.4 Cutting plane position
  - ● 9.2.5 Rules of drawing
  - ● 9.2.6 Hidden lines necessary or not
  - ● 9.2.7 Section lines
- ● 9.3 Full sectional view
  - ● 9.3.1 Example
- ● 9.4 Half sectional view
  - ● 9.4.1 Example
- ● Section tests
- ● Homework pages
10 Representations for workpieces (2)
- ● Objectives and tasks
- ● 10.1 Broken-out sectional views
  - ● 10.1.1 Introduction
  - ● 10.1.2 Application
  - ● 10.1.3 Examples
    - ● 10.1.3.1 Example 1
    - ● 10.1.3.2 Example 2
    - ● 10.1.3.3 Example 3
  - ● 10.1.4 Conventions
- ● 10.2 Auxiliary sectional views
- ● Section test
- ● Homework pages
11 Representations for workpieces (3)
- ● Objectives and tasks
- ● 11.1 Introduction
- ● 11.2 Offset sectional views
  - ● 11.2.1 Example
  - ● 11.2.2 Demo
  - ● 11.2.3 Typical problems
- ● 11.3 Aligned sectional view
  - ● 11.3.1 Conventions
  - ● 11.3.2 Special cases
- ● 11.4 Composite cutting
  - ● 11.4.1 Example
- ● 11.5 Demo of multi-cutting
  - ● 11.5.1 Half section
  - ● 11.5.2 Aligned section
  - ● 11.5.3 Broken-out section
- ● Section test
- ● Homework pages
12 Representations for workpieces (4)
- ● Objectives and tasks
- ● 12.1 Introduction
- ● 12.2 Removed section
  - ● 12.2.1 Symmetric removed section
  - ● 12.2.2 Application
  - ● 12.2.3 Other Related knowledge
  - ● 12.2.4 Annotation
  - ● 12.2.5 Examples
- ● 12.3 Revolved section
- ● 12.4 Conventional representations
- ● 12.5 Representations of breaks
- ● 12.6 Simplified representations
- ● 12.7 Representations of enlargement
- ● 12.8 Demo of applications
  - ● 12.8.1 Demo 1
  - ● 12.8.2 Demo 2
- ● Section tests
- ● Homework pages
13 Screw thread structure
- ● Objectives and tasks
- ● 13.1 Introduction
- ● 13.2 Terminology
- ● 13.3 Five elements
  - ● 13.3.1 Thread form
  - ● 13.3.2 Diameters
  - ● 13.3.3 Number of threads
  - ● 13.3.4 Pitch and lead
  - ● 13.3.5 RH/LH screw thread
- ● 13.4 Types of screw thread
- ● 13.5 Representation of screw thread
  - ● 13.5.1 Introduction
  - ● 13.5.2 External/Internal thread
  - ● 13.5.3 Meshing screw thread
- ● 13.6 Dimensioning for screw thread
- ● Section test
- ● Homework pages
14 Fasteners
- ● Objectives and tasks
- ● 14.1 Introduction
- ● 14.2 Representations of single fastener
  - ● 14.2.1 Hexnut
  - ● 14.2.2 Hexbolt
  - ● 14.2.3 Plain washer
  - ● 14.2.4 Screw
- ● 14.3 Connection of threaded fasteners
- ● 14.4 Non-threaded fasteners
  - ● 14.4.1 Keys
- ● Section test
- ● Homework pages
15 Ohter commonly-used parts
- ● Objectives and tasks
- ● 15.1 Introduction to pins
  - ● 15.1.1 Pins note and selection
- ● 15.2 Retaining rings
- ● 15.3 Springs
- ● 15.4 Bearings
- ● 15.5 Gears
- ● Homework pages
- ● Section test
16 Detail drawing (1)
- ● Objectives and tasks
- ● 16.1 Parts classification
  - ● 16.1.1 Shaft/sleeve
  - ● 16.1.2 disks/wheels
  - ● 16.1.3 Housings/bases
  - ● 16.1.4 Forks/brackets
- ● 16.2 Introduction to detail drawing
- ● 16.3 Views selection
- ● 16.4 How to use representations
- ● 16.5 Views description
  - ● 16.5.1 Forks/brackets
  - ● 16.5.2 Housings/bases
  - ● 16.5.3 Shafts/sleeves
  - ● 16.5.4 Wheels/disks
- ● 16.6 Surface texture
  - ● 16.6.1 Concepts
  - ● 16.6.2 Roughness symbols
  - ● 16.6.3 Application
  - ● 16.6.4 Demo
- ● Section tests
- ● Homework
- ● Reading materials
17 Detail drawing (2)
- ● 17.1 Dimension tolerance
  - ● 17.1.1 Review
  - ● 17.1.2 Tolerance and fit
  - ● 17.1.3 Term-size
  - ● 17.1.4 Term-tolerance
  - ● 17.1.5 Term-tolerance symbol
  - ● 17.1.6 IT grade
  - ● 17.1.7 Fit dimension
  - ● 17.1.8 Hole/shaft basis system
- ● 17.2 Geometric tolerance
- ● 17.3 Structural requirements
  - ● 17.3.1 Fillets/rounds
  - ● 17.3.2 Transition line
  - ● 17.3.3 Draft angle
  - ● 17.3.4 Uniform thickness
  - ● 17.3.5 Undercut/escape
  - ● 17.3.6 Dumy club/boss
- ● 17.4 Demo of application
  - ● 17.4.1 How to add tolerance
  - ● 17.4.2 How to add roughness
E1 Reverse engineering experiment
- ● E1.1 Introduction
- ● E1.2 Purposes
- ● E1.3 Measuring tools
  - ● E1.3.1 General introduction
  - ● E1.3.2 Details of application
- ● E1.4 General requirements
- ● E1.5 Methods of writing sketches
- ● E1.6 Methods of measuring/dimensioning
- ● E1.7 Optimizing representation solution
- ● E1.8 Instruction on site
  - ● E1.8.1 Hand by hand instruction-1
  - ● E1.8.2 Hand by hand instruction-2
  - ● E1.8.3 Hand by hand instruction-3
  - ● E1.8.4 Hand by hand instruction-4
  - ● E1.8.5 Hand by hand instruction-5
  - ● E1.8.6 Hand by hand instruction-6
18 Assembly drawing-writing
- ● 18.1 Introduction
- ● 18.2 Contents
- ● 18.3 Example-machine vise
- ● 18.4 Representation methods
  - ● 18.4.1 Conventional
  - ● 18.4.2 Special
  - ● 18.4.3 Simplified & exaggerated
- ● 18.5 Views selection
  - ● 18.5.1 General introduction
  - ● 18.5.2 Details of view selection
- ● 18.6 Dimensioning on assembly drawing
- ● 18.7 Part number
- ● 18.8 Parts list
- ● 18.9 Structural requirements for assembling
- ● 18.10 Example of writing-screw jack
  - ● 18.10.1 Introduction to components
  - ● 18.10.2 Drawing steps
19 Assembly drawing-reading
- ● 19.1 General requirements
- ● 19.2 Steps of reading
  - ● 19.2.1 Step 1-title block and parts list
  - ● 19.2.2 Step 2-views
  - ● 19.2.3 Step 3-working principle
  - ● 19.2.4 Step 4-fit/connection
  - ● 19.2.5 Step 5-sealing parts
  - ● 19.2.6 Step 6-assembling sequence
  - ● 19.2.7 step 7-primary parts
- ● 19.3 Produce detail drawing
  - ● 19.3.1 Form representation result
  - ● 19.3.2 Add full dimensions rationally
  - ● 19.3.3 Add technical requirements
- ● 19.4 Summary
E2 Manufacturing design experiment
- ● E2.1 Introduction
- ● E2.2 General requirements
- ● E2.3 Introduction to hand tools
- ● E2.4 Precautions before experiment
- ● E2.5 Reducer
- ● E2.6 Diaphragm valve
  - ● E2.6.1 Disassembling sequence
  - ● E2.6.2 Operating principle
  - ● E2.6.3 Characteristics
  - ● E2.6.4 Specific precautions
- ● E2.7 Steam trap valve
- ● E2.8 Globe valve
- ● E2.9 Requirements of project homework
- ● E2.10 Instructions of manufacturing design
  - ● E2.10.1 Material selection
  - ● E2.10.2 Bearings selection
  - ● E2.10.3 Fit selection
  - ● E2.10.4 Worm gear reducer
  - ● E2.10.5 Gate valve
  - ● E2.10.6 Functional structure of gate valve
  - ● E2.10.7 Diaphragm valve
20 Software practice(1)
- ● 20.1 Sketches
  - ● 20.1.1 Sketch 1
  - ● 20.1.2 Sketch 2
  - ● 20.1.3 Sketch 3
  - ● 20.1.4 Sketch 4
  - ● 20.1.5 Sketch 5
  - ● 20.1.6 Sketch 6
- ● 20.2 Basic solids (1)
  - ● 20.2.1 Right hexagonal prism
  - ● 20.2.2 Oblique rectangular prism
  - ● 20.2.3 Right triangular pyramid
  - ● 20.2.4 Oblique square pyramid
  - ● 20.2.5 Deformed oblique square pyramid
  - ● 20.2.6 Solid of revolution
  - ● 20.2.7 Solid of extrusion
21 Software practice (2)-basic solids
- ● 21.1 Sweeping solids
  - ● 21.1.1 Torsion spring
  - ● 21.1.2 Spiral slide
    - ● 21.1.2.1 varied radius spiral slide1
    - ● 21.1.2.2 varied radius spiral slide2
- ● 21.2 Lofting solids
  - ● 21.2.1 coffee spoon
    - ● 21.2.1.1 coffee spoon1
    - ● 21.2.1.2 coffee spoon2
    - ● 21.2.1.3 coffee spoon3
    - ● 21.2.1.4 coffee spoon4
    - ● 21.2.1.5 coffee spoon5
    - ● 21.2.1.6 coffee spoon6
  - ● 21.2.2 Steam jet
    - ● 21.2.2.1 Steam jet 1
    - ● 21.2.2.2 Steam jet 2
22 Software practice (3)-objects
- ● 22.1 Example 1
  - ● 22.1.1 Create a project
  - ● 22.1.2 Modeling 1-1
  - ● 22.1.3 Modeling 1-2
  - ● 22.1.4 Views & dimensions
- ● 22.2 Example 2
  - ● 22.2.1 Modeling
  - ● 22.2.2 Views
- ● 22.3 Example 3
  - ● 22.3.1 Modeling
  - ● 22.3.2 Views
- ● 22.4 Example 4
  - ● 22.4.1 Modeling
  - ● 22.4.2 Views
- ● 22.5 Example 5
  - ● 22.5.1 Modeling 5-1
  - ● 22.5.2 Modeling 5-2
  - ● 22.5.3 Views
- ● 22.6 Example 6
  - ● 22.6.1 Modeling
  - ● 22.6.2 Views
- ● 22.7 Example 7
  - ● 22.7.1 Modeling 7-1
  - ● 22.7.2 Modeling 7-2
  - ● 22.7.3 Views
- ● 22.8 Example 8
  - ● 22.8.1 Modeling 8-1
  - ● 22.8.2 Modeling 8-2
  - ● 22.8.3 Views
- ● 22.9 Example 9
  - ● 22.9.1 Modeling 9-1
  - ● 22.9.2 Modeling 9-2
23 Software practice (4)-Represesntations
- ● 23.1 Full section
- ● 23.2 Half section
  - ● 23.2.1 Half section 1-1
  - ● 23.2.2 Half section 1-2
- ● 23.3 Broken-out section
  - ● 23.3.1 Broken-out section 1-1
  - ● 23.3.2 Broken-out section 1-2
- ● 23.4 Aligned section
  - ● 23.4.1 Aligned section 1-1
  - ● 23.4.2 Aligned section 1-2
- ● 23.5 Offset section
- ● 23.6 Application-example 1
  - ● 23.6.1 Example 1-1
  - ● 23.6.2 Example 1-2
  - ● 23.6.3 Example 1-3
- ● 23.7 Application-example 2
  - ● 23.7.1 Example 2-1
  - ● 23.7.2 Example 2-2
  - ● 23.7.3 Example 2-3
- ● 23.8 Application-example 3
  - ● 23.8.1 Example 3-1
  - ● 23.8.2 Example 3-2
24 Software practice (5)-parts
- ● 24.1 Shaft
  - ● 24.1.1 Structure detail
  - ● 24.1.2 Modeling
  - ● 24.1.3 Geometric tolerance
  - ● 24.1.4 View orientation
  - ● 24.1.5 Views
    - ● 24.1.5.1 Representation 1
    - ● 24.1.5.2 Representation 2
  - ● 24.1.6 Diemsioning
    - ● 24.1.6.1 Dimensioning 1
    - ● 24.1.6.2 Dimensioning 2
  - ● 24.1.7 Shaft generator
    - ● 24.1.7.1 Design 1
    - ● 24.1.7.2 Design 2
    - ● 24.1.7.3 Design 3
    - ● 24.1.7.4 Design 4
    - ● 24.1.7.5 Force & diameter 1
    - ● 24.1.7.6 Force & diameter 2
  - ● 24.1.8 Key generator
    - ● 24.1.8.1 Check computation 1
    - ● 24.1.8.2 Check computation 2
- ● 24.2 Brake pedal
  - ● 24.2.1 Modeling
    - ● 24.2.1.1 modeling 1
    - ● 24.2.1.2 modeling 2
    - ● 24.2.1.3 modeling 3
    - ● 24.2.1.4 modeling 4
    - ● 24.2.1.5 modeling 5
    - ● 24.2.1.6 modeling 6
    - ● 24.2.1.7 modeling 7
  - ● 24.2.2 Geometric tolerance
    - ● 24.2.2.1 Geometric tolerance 1
    - ● 24.2.2.2 Geometric tolerance 2
  - ● 24.2.3 Views
    - ● 24.2.3.1 Front view 1
    - ● 24.2.3.2 Frong view 2
    - ● 24.2.3.3 Top view
    - ● 24.2.3.4 Auxiliary view
    - ● 24.2.3.5 Shaded view
    - ● 24.2.3.6 3D Annotation
    - ● 24.2.3.7 Notes & dimensions 1
    - ● 24.2.3.8 Notes & dimensions 2
- ● 24.3 Rockerarm
  - ● 24.3.1 Modeling 1
  - ● 24.3.2 Modeling 2
  - ● 24.3.3 Modeling 3
  - ● 24.3.4 Modeling 4
  - ● 24.3.5 Modeling 5
  - ● 24.3.6 Modeling 6
  - ● 24.3.7 Modeling 7
  - ● 24.3.8 Modeling 8
  - ● 24.3.9 Geometric tolerance
- ● 24.4 Spray nozzle
  - ● 24.4.1 Modeling
    - ● 24.4.1.1 modeling 1
    - ● 24.4.1.2 modeling 2
    - ● 24.4.1.3 modeling 3
    - ● 24.4.1.4 modeling 4
    - ● 24.4.1.5 modeling 5
    - ● 24.4.1.6 modeling 6
    - ● 24.4.1.7 modeling 7
    - ● 24.4.1.8 modeling 8
  - ● 24.4.2 Geometric tolerance
  - ● 24.4.3 View orientation
  - ● 24.4.4 Views
    - ● 24.4.4.1 Front view
    - ● 24.4.4.2 Top view
    - ● 24.4.4.3 Partial view & section
    - ● 24.4.4.4 partial view
25 Software practice (6)-Machine vice
- ● 25.1 Introduction
- ● 25.2 Project file
- ● 25.3 Assemble grounded jaw
- ● 25.4 Assembling other parts
  - ● 25.4.1 Joint command
  - ● 25.4.2 Angle constraint
  - ● 25.4.3 Motion constraint and drive
  - ● 25.4.4 Contact solver
  - ● 25.4.5 Standard parts Imate assemble
  - ● 25.4.6 Fix nut & screw rod
  - ● 25.4.7 Create folder in browser
  - ● 25.4.8 Assemble cotter pin
- ● 25.5 Make a handle in place
  - ● 25.5.1 Parameters linked/derived
  - ● 25.5.2 Adaptive handle
- ● 25.6 Create and eidt views
  - ● 25.6.1 Edit drawing border
  - ● 25.6.2 Modify template
  - ● 25.6.3 Front view
    - ● 25.6.3.1 Edit front view
    - ● 25.6.3.2 Modify to meet convention
  - ● 25.6.4 Left side view
    - ● 25.6.4.1 Produce half section
    - ● 25.6.4.2 Modify half section
    - ● 25.6.4.3 Edit left side view
  - ● 25.6.5 Edit top view
  - ● 25.6.6 Finish and modify views furthermore
- ● 25.7 Dimensioning
  - ● 25.7.1 Characteristic and fit dimensions
  - ● 25.7.2 Other dimensions
- ● 25.8 Part number & parts list
  - ● 25.8.1 Parts properties
  - ● 25.8.2 Add part number
  - ● 25.8.3 Rewrite part number
  - ● 25.8.4 Reedit parts list
- ● 25.9 Cerate disassembling animation
  - ● 25.9.1 Tweak and combine action 1
  - ● 25.9.2 Tweak and combine action 2
  - ● 25.9.3 Tweak and combine action 3
  - ● 25.9.4 Tweak and combine action 4
  - ● 25.9.5 Insert camera
  - ● 25.9.6 Publish to video
26 Top down design（Chinese）
- ● 26.1 Remote controller design
  - ● 26.1.1 Lip and grill design
  - ● 26.1.2 Rest and button design
  - ● 26.1.3 Screw boss design
  - ● 26.1.4 Battery cover and snap fit design
- ● 26.2 Magic cube design
  - ● 26.2.1 Project introduction
  - ● 26.2.2 Split cube
  - ● 26.2.3 Create corner block
  - ● 26.2.4 Create edge block
  - ● 26.2.5 Create center block
  - ● 26.2.6 Assemble and create center bracket
  - ● 26.2.7 Create screw and spring
  - ● 26.2.8 Create ipn file
- ● 26.3 Rubick' s revenge design guide
27 Top-down design(Storage tank DN1400 )
- ● 27.1 Introduction
- ● 27.2 Multi-body layout creation
- ● 27.3 Assembly creation
- ● 27.4 Assembly drawing creation
28 Parameter and adaptive design
- ● 28.1 A toy bow arrow
- ● 28.2 A spatial roller motion
- ● 28.3 A pneumatic valve
  - ● 28.3.1 Assembling
  - ● 28.3.2 Adaptive spring modeling
  - ● 28.3.3 Operating principle animation
29 Simulation and Reverse design
- ● 29.1 Winding machine simulation
- ● 29.2 Cam reverse design
30 Simulation and Generative design
- ● 30.1 Example (Chinese pdf）
- ● 30.2 Case 1
- ● 30.3 Case 2
- ● 30.4 Creative design sample
- ● 30.5 Student project show

16.1 Parts classification

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