| Titre : |
An introduction to mechanical engineering (part 2) |
| Type de document : |
texte imprimé |
| Auteurs : |
Michael CLIFFORD, Auteur ; Richard BROOKS, Auteur ; Kwing-so CHOI, Auteur |
| Editeur : |
HODDER EDUCATION |
| Année de publication : |
2010 |
| Importance : |
480 p. |
| Présentation : |
ill. |
| Format : |
28 cm. |
| ISBN/ISSN/EAN : |
978-0-340-93996-3 |
| Note générale : |
Index 472-480 p. |
| Langues : |
Anglais (eng) |
| Catégories : |
GENIE MÉCANIQUE:Mécanique générale
|
| Index. décimale : |
11-01 Mécanique générale |
| Résumé : |
Introduction
Unit 1 – Fluid dynamics
1.1 Introduction
1.2 Basic concept in fluid dynamics
1.3 Boundary layers
1.4 Drag on immersed bodies
1.5 Flow through pipes and ducts
1.6 Dimensional analysis in fluid dynamics
Unit 2 – Thermodynamics
2.1 Introduction
2.2 Air conditioning
2.3 Gas mixtures
2.4 Combustion
2.5 Reciprocating compressors
2.6 Heat transfer
2.7 Heat exchangers
2.8 Vapour power cycle
2.9 Reciprocating internal combustion engines
Unit 3 – Solid mechanics
3.1 Introduction
3.2 Combined loading
3.3 Yield criteria
3.4 Deflection of beams
3.5 Elastic–plastic deformations
3.6 Elastic instability
3.7 Shear stresses in beams
3.8 Thick cylinders
3.9 Asymmetrical bending
3.10 Strain energy
An Introduction to Mechanical Engineering: Part 2
3.11 Fatigue
3.12 Fracture mechanics
3.13 Thermal stresses
Unit 4 – Electromechanical drive systems
4.1 Introduction
4.2 Characteristics of loads
4.3 Linear and rotary inertia
4.4 Geared systems
4.5 Tangentially driven loads
4.6 Steady-state characteristics of loads
4.7 Modifying steady-state characteristics of a load using a transmission
4.8 Sources of mechanical power and their characteristics
4.9 Direct current motors and their characteristics
4.10 Rectified supplies for dc motors
4.11 Inverter-fed induction motors and their characteristics
4.12 Other sources of power: pneumatics and hydraulics
4.13 Steady-state operating points and matching of loads to power sources
Unit 5 – Feedback and control theory
5.1 Introduction
5.2 Feedback and the concept of control engineering
5.3 Illustrations of modelling and block diagram concepts
5.4 The s domain: a notation borrowed from mathematics
5.5 Block diagrams and the s notation: the heater controller and tensioning system
5.6 Working with transfer functions and the s domain
5.7 Building a block diagram: part 1
5.8 Building a block diagram: part 2
5.9 Conversion of the block diagram to the transfer function of the system
5.10 Handling block diagrams with overlapping control loops
5.11 The control algorithm and proportional-integral-derivative (PID) control
5.12 Response and stability of control systems
5.13 A framework for mapping the response of control systems: the root locus method
Unit 6 – Structural vibration
6.1 Introduction
6.2 Natural frequencies and mode shapes
6.3 Response of damped single-degree-of-freedom systems
6.4 Response of damped multi-degree-of-freedom systems
6.5 Experimental modal analysis
6.6 Approximate methods
6.7 Vibration control techniques |
An introduction to mechanical engineering (part 2) [texte imprimé] / Michael CLIFFORD, Auteur ; Richard BROOKS, Auteur ; Kwing-so CHOI, Auteur . - HODDER EDUCATION, 2010 . - 480 p. : ill. ; 28 cm. ISBN : 978-0-340-93996-3 Index 472-480 p. Langues : Anglais ( eng)
| Catégories : |
GENIE MÉCANIQUE:Mécanique générale
|
| Index. décimale : |
11-01 Mécanique générale |
| Résumé : |
Introduction
Unit 1 – Fluid dynamics
1.1 Introduction
1.2 Basic concept in fluid dynamics
1.3 Boundary layers
1.4 Drag on immersed bodies
1.5 Flow through pipes and ducts
1.6 Dimensional analysis in fluid dynamics
Unit 2 – Thermodynamics
2.1 Introduction
2.2 Air conditioning
2.3 Gas mixtures
2.4 Combustion
2.5 Reciprocating compressors
2.6 Heat transfer
2.7 Heat exchangers
2.8 Vapour power cycle
2.9 Reciprocating internal combustion engines
Unit 3 – Solid mechanics
3.1 Introduction
3.2 Combined loading
3.3 Yield criteria
3.4 Deflection of beams
3.5 Elastic–plastic deformations
3.6 Elastic instability
3.7 Shear stresses in beams
3.8 Thick cylinders
3.9 Asymmetrical bending
3.10 Strain energy
An Introduction to Mechanical Engineering: Part 2
3.11 Fatigue
3.12 Fracture mechanics
3.13 Thermal stresses
Unit 4 – Electromechanical drive systems
4.1 Introduction
4.2 Characteristics of loads
4.3 Linear and rotary inertia
4.4 Geared systems
4.5 Tangentially driven loads
4.6 Steady-state characteristics of loads
4.7 Modifying steady-state characteristics of a load using a transmission
4.8 Sources of mechanical power and their characteristics
4.9 Direct current motors and their characteristics
4.10 Rectified supplies for dc motors
4.11 Inverter-fed induction motors and their characteristics
4.12 Other sources of power: pneumatics and hydraulics
4.13 Steady-state operating points and matching of loads to power sources
Unit 5 – Feedback and control theory
5.1 Introduction
5.2 Feedback and the concept of control engineering
5.3 Illustrations of modelling and block diagram concepts
5.4 The s domain: a notation borrowed from mathematics
5.5 Block diagrams and the s notation: the heater controller and tensioning system
5.6 Working with transfer functions and the s domain
5.7 Building a block diagram: part 1
5.8 Building a block diagram: part 2
5.9 Conversion of the block diagram to the transfer function of the system
5.10 Handling block diagrams with overlapping control loops
5.11 The control algorithm and proportional-integral-derivative (PID) control
5.12 Response and stability of control systems
5.13 A framework for mapping the response of control systems: the root locus method
Unit 6 – Structural vibration
6.1 Introduction
6.2 Natural frequencies and mode shapes
6.3 Response of damped single-degree-of-freedom systems
6.4 Response of damped multi-degree-of-freedom systems
6.5 Experimental modal analysis
6.6 Approximate methods
6.7 Vibration control techniques |
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