Atjaunināt sīkdatņu piekrišanu

Vibrating Machinery: Theory, Techniques and Applications [Hardback]

, , , ,
  • Formāts: Hardback, 386 pages, height x width: 240x160 mm, weight: 785 g
  • Izdošanas datums: 30-Jan-2012
  • Izdevniecība: Alpha Science International Ltd
  • ISBN-10: 1842657194
  • ISBN-13: 9781842657195
Citas grāmatas par šo tēmu:
  • Hardback
  • Cena: 67,65 €
  • 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
Vibrating Machinery: Theory, Techniques and ApplicationsPalielināt
  • Formāts: Hardback, 386 pages, height x width: 240x160 mm, weight: 785 g
  • Izdošanas datums: 30-Jan-2012
  • Izdevniecība: Alpha Science International Ltd
  • ISBN-10: 1842657194
  • ISBN-13: 9781842657195
Citas grāmatas par šo tēmu:
Permanent link: https://www.kriso.lv/db/9781842657195.html
Describes the working theory and techniques of vibrating machinery, and introduces the applications, working principles and typical constructions of vibrating machines.

The working theory and techniques of vibrating machinery are described in this book and the applications, working principles and typical constructions of vibrating machines introduced.

This book describes the theories of several technical processes, the design and calculation methods of technical parameters, calculation and selection methods of the parameters of vibrating systems, the theories of vibratory synchronization and controlled synchronization of vibrating machines with dual- or multi-motor drives, the dynamic theories of linear and nonlinear vibrating machinery (including inertial vibrating machinery, flexible linkage vibrating machines and electromagnetic vibrating machines).

The working theory and techniques of vibrating machinery are described in this book and the applications, working principles and typical constructions of vibrating machines introduced.

This book describes the theories of several technical processes, the design and calculation methods of technical parameters, calculation and selection methods of the parameters of vibrating systems, the theories of vibratory synchronization and controlled synchronization of vibrating machines with dual- or multi-motor drives, the dynamic theories of linear and nonlinear vibrating machinery (including inertial vibrating machinery, flexible linkage vibrating machines and electromagnetic vibrating machines).
Introduction to the First Author
Preface
Chapter 1 Applications, Classifications, Principles and Structures of Vibrating Machines
1(36)
1.1 Applications and classifications of vibrating machines
1(6)
1.2 Principle and structure of inertial vibrating machines
7(20)
1.3 Principle and structure of flexible linkage vibrating machines
27(3)
1.4 Principle and structure of electromagnetic vibrating machines
30(3)
1.5 Principle and structure of hydraulic vibrating machines
33(4)
Chapter 2 Principles and Design Calculation of Vibrating Machines
37(54)
2.1 Principles and processing parameters of linear vibrating machines
37(33)
2.2 Analysis of material motion and computation of parameters for circular and elliptical vibrating machines
70(14)
2.3 Characteristics of material motion in non-harmonic vibrating machines
84(4)
2.4 Dynamic characteristics of working process of vibrating machines
88(3)
Chapter 3 Design and Calculation of Mass, Damping, and Spring Stiffness of Vibrating Machines
91(51)
3.1 Calculations of the mass of vibration and equivalent damping for material during the sliding process
91(8)
3.2 High order harmonic vibration caused by non-linear material force
99(11)
3.3 Calculation of elastic component combining mass of vibrating machines
110(6)
3.4 Calculation of equivalent damping and power of vibrating machines
116(3)
3.5 Isolation theory and isolation spring stiffness calculation
119(10)
3.6 Selection of the frequency ratio and calculation of the spring stiffness for the primary vibrating system in a near-resonant vibrating machine
129(7)
3.7 Vibration isolation mode, primary vibration mode and response
136(6)
Chapter 4 Vibratory Synchronization for Vibrating Machines with Dual Motors
142(43)
4.1 Introduction
142(1)
4.2 Synchronization theory of plane motion self-synchronous vibrating machines with single mass
143(19)
4.3 Vibratory synchronization of spatial motion self-synchronous vibrating machines
162(13)
4.4 Electromechanical coupling self-synchronous characteristics of elastic link vibrating machines
175(6)
4.5 Electromechanical coupling analysis of synchronization of electric vibrating machines with two exciting headers
181(4)
Chapter 5 Design and Computation of Dynamic Parameters for Inertia Vibrating Machines
185(61)
5.1 Dynamic parameters of non-resonant single-shaft inertial vibrating machines
185(11)
5.2 Dynamic parameters of non-resonant dual-shaft inertial vibrating machines
196(6)
5.3 Dynamic parameters of non-resonant multi-shaft vibrating machines
202(6)
5.4 Dynamic parameters of linear near-resonant inertial vibrating machines
208(5)
5.5 Dynamic parameters of non-linear near-resonant inertial vibrating machines
213(19)
5.6 Dynamic parameters of impacting inertial vibrating machines
232(3)
5.7 Dynamic parameters of inertial vibrating machines
235(5)
5.8 Adjustment of inertial vibrating machines
240(6)
Chapter 6 Design and Computation of Dynamic Parameters for Flexible Linkage Vibrating Machines
246(40)
6.1 Dynamic parameters of linear single-mass flexible linkage vibrating machines
246(3)
6.2 Dynamic parameters of linear dual-mass flexible linkage vibrating machines
249(6)
6.3 Dynamic parameters of multi-mass flexible linkage vibrating machines
255(3)
6.4 Dynamic parameters of nonlinear flexible linkage vibrating machines
258(15)
6.5 Calculation procedure of dynamic parameters for flexible linkage vibrating machines and examples
273(7)
6.6 Adjustment of flexible linkage vibrating machines
280(6)
Chapter 7 Computation of Dynamic Parameters for Electromagnetic Vibrating Machines
286(36)
7.1 Types of electromagnetic forces of electromagnetic vibrating machines
286(1)
7.2 Dynamic parameters of linear harmonic force electromagnetic vibrating machines
287(6)
7.3 Dynamic parameters of non-harmonic force EMVMs
293(7)
7.4 Dynamic parameters of nonlinear spring force EMVMs
300(6)
7.5 Computational procedure of dynamic parameters for EMVMs and examples
306(6)
7.6 Transition process analysis of electromagnetic vibrating machines
312(4)
7.7 Adjustment of electromagnetic vibrating machines
316(6)
Chapter 8 Electromagnetic Parameters and Control Systems of Electromagnetic Vibrating Machines
322(46)
8.1 Excitation methods of electromagnetic vibrating machines
322(4)
8.2 Electromagnetic force of EMVMs
326(16)
8.3 Voltage and current of electromagnetic vibrating machines
342(6)
8.4 Power and power factor of EMVMs
348(2)
8.5 Computation of electromagnetic parameters for EMVMs
350(10)
8.6 Control of EMVMs
360(8)
References 368