How Do I Choose the Best Computer Engineering Books?

Engineering non-mechanical majors studying this course are mainly to understand the two basic problems of the expression method of orthographic projection and drawing technology. "Computer Engineering Design and Drawing Basics" tightly combines the above two issues to make the course more compact. As for other contents, such as axonometric drawings, mechanical drawings (referring to standard parts, commonly used parts and the content related to mechanical manufacturing) and the design and selection of mechanical parts, they are all considered.

Computer Engineering Design Drawing Basics

Paperback: 360 pages

Body language: Simplified Chinese

Folio: 16

Barcode: 9787313022738

Size: 25.8 x 18.6 x 1.8 cm

Weight: 522 g

Chapter 1 Basics of Computer Graphics

1.1 Development and Application of Computer Graphics

1.2 Computer graphics system

1.3 Introduction to Computer Drawing Software

Chapter 2 Basics of Mechanical Drawing

2.1 Introduction to National Standards for Mechanical Drawing

2.2 Traditional drawing technology

2.3 Engineering drawing learning methods

2.4 Computer drawing straight line graphics

Chapter 3 Graphic Drawing

3.1 Mapping principle

3.2 Plane graphic size analysis

3.3 Computer drawing arc connection graphics

Chapter 4 Orthographic Projection

4.1 Basic Concepts of Projection

4.2 points

4.3 straight lines

4.4 Plane

4.5 Basic geometry

4.6 Three Views of Computer Painted Geometry

Chapter 5 Stereo Surface Intersection

5.1 intercept line

5.2 Intersecting lines

5.3 Computer Intersecting Surfaces

Chapter 6 Views and Dimensions of Combinations

6.1 Draw assembly view

6.2 Look at the assembly view

6.3 Assembly size annotation

6.4 Three Views of Computer Painting Combinations

6.5 Computer dimensioning of assembly

Chapter 7 Axonometric Drawings

7.1 Basic Concepts of Axonometric Drawings

7.2 Isometric

7.3 Oblique isometric drawing

7.4 Computer isometric drawing

Chapter 8 Expressions of Mechanisms

8.1 View

8.2 Sectional view

8.3 Section view

8.4 Enlarged drawing and simplified drawing

8.5 Comprehensive application examples

8.6 Computer drawing section, section view

Chapter 9 Mechanical Strength Calculations

9.1 Force analysis of objects

9.2 Basic forms of internal forces and deformations

9.3 Tension and compression, mechanical properties of metallic materials

9.4 Shear and torsion of round shaft

9.5 Plane Bending of Beams

9.6 Alternating Stress

Chapter 10 Standard and Common Parts

10.1 Threaded connections

10.2 Strength calculations for threaded connections

10.3 Key Connection

10.4 Pin connection

10.5 Spring

Chapter 11 Shafts and Bearings

11.1 Overview

11.2 Structural design of the shaft

11.3 Calculation of the strength of the shaft

11.4 Working drawing of the axis

11.5 Types, codes and selection of rolling bearings

11.6 Painting of rolling bearings

Chapter 12 Gear Transmission

12.1 Gearing Concept

12.2 Meshing characteristics of involute and involute tooth profiles

12.3 Names and basic dimensions of involute standard spur gears

12.4 Meshing transmission of involute spur gears

12.5 Common Normal Length Wk and Number of Teeth

12.6 Undercut phenomenon and minimum number of teeth

12.7 Forms of tooth failure

12.8 Gear Materials

12.9 Strength calculation of spur gears

12.10 Gearing accuracy

12.11 Structure of Cylindrical Gears

12.12 Drawing and Mapping of Spur Gears

12.13 Helical Cylindrical Gear Transmission

Chapter 13 Part Drawings and Assembly Drawings

13.1 Parts drawing

13.2 Assembly drawing

appendix

I. Tolerance and fit

Threads and threaded connections

Keys and pins

Fourth, rolling bearings