Atjaunināt sīkdatņu piekrišanu

Motion Simulation & Mechanism Design with SOLIDWORKS Motion 2019 [Mīkstie vāki]

4.00/5 (2 ratings by Goodreads)
  • Formāts: Paperback / softback, 170 pages, height x width: 280x210 mm, weight: 453 g
  • Izdošanas datums: 04-Sep-2019
  • Izdevniecība: SDC Publications
  • ISBN-10: 1630572411
  • ISBN-13: 9781630572419
Citas grāmatas par šo tēmu:
  • Mīkstie vāki
  • Cena: 59,92 €
  • Grāmatu piegādes laiks ir 3-4 nedēļas, ja grāmata ir uz vietas izdevniecības noliktavā. Ja izdevējam nepieciešams publicēt jaunu tirāžu, grāmatas piegāde var aizkavēties.
  • Daudzums:
  • Ielikt grozā
  • Piegādes laiks - 4-6 nedēļas
  • Pievienot vēlmju sarakstam
Motion Simulation & Mechanism Design with SOLIDWORKS Motion 2019Palielināt
  • Formāts: Paperback / softback, 170 pages, height x width: 280x210 mm, weight: 453 g
  • Izdošanas datums: 04-Sep-2019
  • Izdevniecība: SDC Publications
  • ISBN-10: 1630572411
  • ISBN-13: 9781630572419
Citas grāmatas par šo tēmu:
Permanent link: https://www.kriso.lv/db/9781630572419.html
Motion Simulation and Mechanism Design with SOLIDWORKS Motion 2019 is written to help you become familiar with SOLIDWORKS Motion, an add-on module of the SOLIDWORKS software family. This book covers the basic concepts and frequently used commands required to advance readers from a novice to intermediate level in using SOLIDWORKS Motion.SOLIDWORKS Motion allows you to use solid models created in SOLIDWORKS to simulate and visualize mechanism motion and performance. Using SOLIDWORKS Motion early in the product development stage could prevent costly redesign due to design defects found in the physical testing phase. Therefore, using SOLIDWORKS Motion contributes to a more cost effective, reliable, and efficient product design process.Basic concepts discussed in this book include model generation, such as creating assembly mates for proper motion; carrying out simulation and animation; and visualizing simulation results, such as graphs and spreadsheet data. These concepts are introduced using simple, yet realistic examples.
Preface i
About the Author iii
About the Cover iv
Table of Contents
v
Lesson 1 Introduction to SOLID WORKS Motion
1.1 Overview of the Lesson
1(1)
1.2 What is SOLIDWORKS Motion?
1(2)
1.3 Mechanism Design and Motion Analysis
3(2)
1.4 SOLIDWORKS Motion Capabilities
5(11)
1.5 Open Lesson 1 Model
16(1)
1.6 Motion Examples
17
Lesson 2 Animations and Basic Motion---A Single Piston Engine Example
2.1 Overview of the Lesson
1(1)
2.2 The Single Piston Engine Example
1(1)
2.3 Using SOLIDWORKS Motion
2
Exercises 2-8
Lesson 3 A Ball Throwing Example
3.1 Overview of the Lesson
1(1)
3.2 The Ball Throwing Example
1(2)
3.3 Using SOLID WORKS Motion
3(7)
3.4 Result Verifications
10(2)
Exercises
12
Lesson 4 A Simple Pendulum
4.1 Overview of the Lesson
1(1)
4.2 The Simple Pendulum Example
1(1)
4.3 Using SOLID WORKS Motion
2(3)
4.4 Result Verifications
5(4)
Exercises
9
Lesson 5 Friction of a Sliding Object
5.1 Overview of the Lesson
1(1)
5.2 The Sliding Object
1(2)
5.3 Using SOLIDWORKS Motion: Contact Friction
3(8)
5.4 Result Verifications
11(1)
5.5 Using SOLIDWORKS Motion: Joint Friction
12(7)
Exercises
19
Lesson 6 A Spring-Mass System
6.1 Overview of the Lesson
1(1)
6.2 The Spring-Mass System
1(1)
6.3 Using SOLIDWORKS Motion
2(6)
6.4 Result Verifications
8(5)
Exercises
13
Lesson 7 A Slider-Crank Mechanism
7.1 Overview of the Lesson
1(1)
7.2 The Slider-Crank Example
1(3)
7.3 Using SOLIDWORKS Motion
4(8)
7.4 Result Verifications
12
Exercises 7-16
Lesson 8 A Slider-Crank Mechanism---Event-Based Dynamic Simulation
8.1 Overview of the Lesson
1(1)
8.2 The Event-Based Motion Analysis
1(1)
8.3 The Slider-Crank Example
2(2)
8.4 Using SOLIDWORKS Motion
4(7)
Exercises
11
Lesson 9 A Rail Carriage Example
9.1 Overview of the Lesson
1(1)
9.2 The Rail Carriage Example
2(2)
9.3 Using SOLIDWORKS Motion
4(6)
Exercises
10
Lesson 10 A Compound Spur Gear Train
10.1 Overview of the Lesson
1(1)
10.2 The Spur Gear Train Example
1(4)
10.3 Using SOLID WORKS Motion
5(4)
Exercises
9
Lesson 11 Planetary Gear Train Systems
11.1 Overview of the Lesson
1(1)
11.2 The Planetary Gear Train Example
2(7)
11.3 Using SOLIDWORKS Motion: Single Planetary Gear Train
9(4)
11.4 Using SOLIDWORKS Motion: Multi-Planetary Gear Train
13(3)
Exercises
16
Lesson 12 Cam and Follower
12.1 Overview of the Lesson
1(1)
12.2 The Cam and Follower Example
1(4)
12.3 Using SOLIDWORKS Motion
5(5)
Exercises
10
Lesson 13 Simulation of Recreational Waterslide
13.1 Overview of the Lesson
1(1)
13.2 The Analytical Calculation Method
1(3)
13.3 The Waterslide Example
4(2)
13.4 Experimental Validation
6(2)
13.5 The Motion Study Model
8(3)
13.6 Using SOLIDWORKS Motion
11
Lesson 14 Kinematic Analysis of a Racecar Suspension
14.1 Overview of the Lesson
1(1)
14.2 The Quarter Suspension
2(13)
14.3 Using SOLID WORKS Motion
15
Appendix A Defining Joints 1(1)
Appendix B The Unit System 1(1)
Appendix C Importing Creo Parts and Assemblies 1