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Fluid Power Transmission and Control By A. Alavudeen, K. H. Syed, N. Shanmugam

300.00

 

2nd Edition 2023
ISBN : 9789385039638
Binding : Paperback
Pages : 460 + 16 = 476
Size (mm) : 235 × 18 × 170
Weight : 650 g

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Description

This text-book provides an in-depth background in the field of Fluid Power, It covers Design, Analysis, Operation and Maintenance. The reader will find this book useful for a clear understanding of the subject and also to assist in the selection and troubleshooting of fluid power components and systems used in manufacturing operations, providing a systematic summary of the fundamentals of hydraulic power transmission.

This book discusses the main characteristics of hydraulic drives and their most important types in a manner comprehensible even to newcomers of the subject.

This book covers a broad range of topics in the field, including: physical properties of hydraulic fluids; energy and power in hydraulic systems; frictional losses in hydraulic pipelines; hydraulic pumps, cylinders, cushioning devices, motors, valves, circuit design, conductors and fittings; hydraulic system maintenance; pneumatic air preparation and its components; and electrical controls for fluid power systems. It provides everything you need to understand the fundamental operating principles as well as the latest maintenance, repair and reconditioning techniques for industrial oil hydraulic systems.

Better understanding of the material is promoted by the sample solutions to various mathematical problems given in each chapter. A number of photographs and illustration have been attached to reflect current “Fluid Power system”.

The book in its 15 Chapters and 3 Appendices contain:

* 431 Neatly drawn self-explanatory diagrams
*   54 Useful Tables
*  52 Worked examples
* 285 Questions are given for preparation of examinations

It is hoped that this book will satisfy the need of the Mechanical Engineering students preparing for the B.Tech/B.E. examinations of almost all the Indian Universities, Diploma examinations conducted by various Boards of Technical Education, Certificate courses as well as for the A.M.I.E., U.P.S.C., G.A.T.E. and other similar competitive and professional Examinations. It should also be of an immense help to the practising Engineers.

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Valuation of Real Properties By Rangwala

978-93-85039-63-8

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Old ISBN

Content

1 : INTRODUCTION – HISTORY
2 : HYDRAULIC BASICS
3 : HYDRAULIC PRINCIPLES
4 : HYDRAULIC DEVICES
5 : HYDRAULIC ACCESSORIES
6 : HYDRAULIC CIRCUIT DIAGRAMS
7 : TROUBLESHOOTING IN HYDRAULIC
8 : HYDRAULIC ELECTRICAL DEVICES:
TROUBLESHOOTING AND SAFETY
9 : PNEUMATICS
10 : COMPONENT OF PNEUMATICS
11 : BASIC PNEUMATIC CIRCUITS
12 : APPLICATION FOR PNEUMATICS
13 : SERVO SYSTEMS, PROPORTIONAL VALVES AND
PNEUMATIC SAFETY
14 : FLUIDICS
15 : DESIGN OF PNEUMATIC CIRCUITS
Appendix a : basic symbols of mechanical
Component, valve
Appendix b : glossary
Appendix c : model question papers
Index

Details Content

Chapter 1 MANUFACTURING TECHNOLOGY

1-1 Introduction
1-2 Design considerations
1-3 Factors affecting manufacturing processes
1-4 Types of materials
1-5 Manufacturing processes
1-6 Manufacturing cost
1-7 Break even point
1-8 Reasons for cost estimates
1-9 Factors affecting estimates
1-10 Skills required for cost estimates
Exercise 1

Chapter 2 manufacturing materials

Part I: Ferrous metals
2-1 Introduction
2-2 Types of cast iron
2-3 Iron–carbon equilibrium diagram
2-4 Types of carbon steels
2-5 Effect of residual elements on carbon steels
2-6 Alloy steels–classification
2-7 Alloying elements
2-8 Properties of stainless steels and alloy steels
2-9 Material coding (designation) system
Part II: Non-ferrous metals and alloys
2-10 Aluminium and aluminium alloys
2-11 Copper and copper alloys
2-12 Magnesium and magnesium alloys
2-13 Titanium alloys
2-14 Zinc and zinc alloys
2-15 Tin and tin alloys
2-16 Bearing alloys
Part III: Ceramics
2-17 Ceramics–constituents, structure and properties
2-18 Ceramic fibres
2-19 Ceramic composites
Part IV: Composites
2-20 Composites
2-21 Materials for nuclear energy
Exercise 2

Chapter 3 PROPERTIES AND TESTING OF MATERIALS

3-1 Properties of materials
3-2 Elastic and plastic behaviour
3-3 Stress and strain
3-4 Stress–strain diagram for carbon steel
3-5 Yield and tensile strength
3-6 Compressive, shear and torsional strengths
3-7 Ductility
3-8 Malleability
3-9 Brittleness
3-10 Hardness
3-11 Hardenability
3-12 Toughness
3-13 Stiffness
3-14 Tenacity
3-15 Resilience
3-16 Factors affecting mechanical properties
3-17 Impact strength
3-18 Hardness tests
3-19 Fracture
3-20 Factors affecting fracture

3-21 Fracture failure prevention
3-22 Fracture toughness
3-23 Factors affecting fracture toughness
3-24 Fatigue
3-25 Factors affecting fatigue properties
3-26 Fatigue test
3-27 Creep
3-28 Factors affecting creep
3-29 Mechanism of creep
3-30 Creep resisting materials
3-31 Non destructive testing (NDT)
3-32 X-rays properties and applications
Exercise 3

Chapter 4 Plastic flow and mechanical working
of metals

4-1 Introduction
4-2 Variables in metal working
4-3 Wrought versus cast metals
4-4 Plastic deformation
4-5 Mechanical working processes
4-6 Cold working
4-7 Warm working of metals
4-8 Hot working of metals
4-9 Work (strain) hardening
4-10 Annealing of cold worked metals
4-11 Recovery (stress relieving)
4-12 Re-crystallisation
4-13 Grain growth
4-14 Grain size measurement
Questions 4

Chapter 5 Rolling and extrusion

Part I: Rolling
5-1 Introduction
5-2 Principles of rolling
5-3 Methods of rolling
5-4 Classification of rolling mills
5-5 Roll passes
5-6 Break down passes
5-7 Draught
5-8 Roll Materials
5-9 Tube (roll) piercing
5-10 Defects in rolled products
Part II: Extrusions
5-11 Principle of extrusion
5-12 Design considerations and limitations
5-13 Types of extrusions
5-14 Forward hot extrusion
5-15 Backward hot extrusion
5-16 Hydrostatic (forward cold) extrusion
5-17 Impact (backward cold) extrusion
5-18 Cold extrusion forging
5-19 Advantages of extrusion
5-20 Extrusion blow moulding
5-21 Extrusion pressure
5-22 Wire drawing
5-23 Tube drawing
5-24 Bar drawing
5-25 Rotary swaging
5-26 Straightening
Exercise 5

Chapter 6 forging

6-1 Introduction
6-2 Drop forging impressions
6-3 Methods of forging
6-4 Forging processes
6-5 Smith forging
6-6 Drop (die) forging
6-7 Press forging
6-8 Machine (upset) forging
6-9 High energy rate forging
6-10 Roll forging
6-11 Forge welding
6-12 Forging materials
6-13 Dies for drop forging
6-14 Dies for upset forging
6-15 Forging design
6-16 Design guidelines for dies and punches
6-17 Allowances on forgings
6-18 Forging defects
6-19 General considerations
6-20 Operations before and after forging
6-21 Forged vis-à-vis cast parts
Questions 6

Chapter 7 sheet metal forming

7-1 Sheet metal forming processes
7-2 Shearing operations
7-3 Shearing with dies
7-4 Angular clearance for dies
7-5 Clearances for punch and die
7-6 Minimum diameter for piercing
7-7 Design requirements for punch press parts
7-8 Shearing force and work done
7-9 Stripping force
7-10 Drawing
7-11 Deep drawing
7-12 Blank size
7-13 Punch (drawing) force
7-14 Lubrication
7-15 Punch (drawing) speed
7-16 Forming (bending)
7-17 Forming (bending) methods
7-18 Bend length
7-19 Bending load
7-20 Work done during bending
7-21 Power required
7-22 Stretch forming
7-23 Bulging
7-24 Coining, embossing and stamping
7-25 Tests on sheet metals
7-26 Spinning
7-27 Power press construction
7-28 Types of power presses
7-29 Safety devices for power press
Exercise 7

Chapter 8 sand moulding practices and metal
casting

Part I: Sand moulding and moulding processes
8-1 Introduction
8-2 Basic steps in sand moulding
8-3 Sand mould preparation

8-4 Pattern materials and types
8-5 Pattern allowances
8-6 Moulding processes and materials
8-6-1 Processes based upon type of sand used
8-6-2 Processes based upon machine used
8-6-3 Special moulding processes
8-6-4 Methods used
8-7 Types of moulding sand
8-8 Properties of moulding sand
8-9 Sand tests
8-10 Mould and core materials
8-11 Core making
8-12 Core boxes and core plates
8-13 Core dryers
8-14 Chaplets
8-15 Core prints
8-16 Core sands and binders
8-17 Core making machines
8-18 Gating system
8-18-1 Components of gating system
8-18-2 Types of gating
8-19 Gating design
8-20 Pouring time
8-21 Fluidity of molten metal and fluidity test
8-22 Terminology
Part II: Metal casting
8-23 Solidification of metals
8-24 Design for sound castings
8-25 Types of casting processes
8-26 Permanent mould castings
8-27 Expandable mould and pattern castings
8-27-1 Investment or precision castings
8-27-2 Plaster mould casting
8-27-3 Ceramic mould castings
8-27-4 Antioch casting
8-28 Permanent pattern casting
8-29 Newly developed casting process
Part III: Cleaning and inspection of castings
8-30 Cleaning and finishing of castings
8-31 Casting defects and remedies
8-32 Precautions to avoid defects
8-33 Inspection of castings
8-34 Casting yield
Exercise 8

Chapter 9 melting furnaces

9-1 Melting furnaces
9-2 Types of furnaces
9-3 Cupola: Melting furnace for ferrous metals
9-4 Cupola operation
9-5 Cupola charging
9-6 Cupola efficiency and heat balance
9-7 Gas and/or liquid fuel furnaces
9-8 Open hearth (reverberatory) furnace
9-9 Air furnace
9-10 Crucible furnace: For melting non-ferrous metals
9-11 Non-crucible furnaces
9-12 Rotary melting furnaces
9-13 Bessemer converter
9-14 Ladles
9-15 Electric furnaces
9-16 Temperature measurement
Exercise 9

Chapter 10 welding and other joining processes

10-1 Joining processes
10-2 Welding process
10-3 Types of welding processes
10-4 Oxy-acetylene gas welding
10-5 Gas welding techniques
10-6 Arc welding
10-7 Shielded metal arc welding (SMAW)
10-8 Flux cored arc welding (FCAW)
10-9 Submerged arc welding (SAW)
10-10 Gas metal arc welding (GMAW)
10-11 Tungsten inert-gas (TIG) welding
10-12 Plasma arc welding (PAW)
10-13 Resistance welding
10-14 Solid state welding
10-15 Thermit welding
10-16 Electron beam welding (EBW)
10-17 Laser beam welding (LBW)
10-18 Electro-slag welding (ESW)
10-19 Atomic hydrogen welding (AHW)
10-20 Robotic arc welding (RAW)
10-21 Types of weld joints
10-22 Electrode classification
10-23 Soldering
10-24 Brazing
10-25 Braze welding
10-26 Metallizing
10-27 Welding of various metals
10-28 Welding defects
10-29 Thermal cutting
10-30 Mechanical fasteners
10-31 Adhesive bonding
10-32 Types of adhesives
10-33 Terminology
Exercise 10

Chapter 11 PLASTICS AND PLASTIC MOULDING

11-1 Introduction
11-2 Characteristics of plastics
11-3 Thermoplastic polymers
11-4 Thermosetting polymers
11-5 Additives
11-6 Moulding processes
11-7 Compression moulding

11-8 Transfer moulding
11-9 Injection moulding
11-10 Design requirements for injection moulding
11-11 Jet blowing
11-12 Plastic extrusion process
11-13 Blow moulding
11-14 Rotational moulding
11-15 Calendering
11-16 Thermo-forming (vacuum forming)
11-17 Blown film process
11-18 Casting
11-19 Design of plastic moulds
11-20 Machining of plastics
11-21 Laminates
11-22 Foamed plastics
11-23 Summary of plastic moulding processes
11-24 Joining of plastics
11-25 Plastics in packaging
Exercise 11

Chapter 12 surface finishing and coatings

12-1 Introduction
12-2 Cleaning and finishing
12-3 Chemical cleaning
12-4 Mechanical cleaning
12-5 Thermal–explosive debarring
12-6 Electro-polishing/forming
12-7 Surface coating
12-8 Properties of coatings
12-9 Types of coatings
12-10 Metallic coatings
12-11 Organic coatings
12-11-1 Constituents and application of paints
12-12 Inorganic coatings
12-13 Chemical conversions
12-14 Plastic coating
12-15 Electron beam coating
Exercise 12

Appendix USEFUL TABLES

Table A–1 S.I. Units, Conversion factors, Prefix names
Table A–2 Conversion factors
Table A–3 Prefix names, Symbols and Multiplication factors
Table A–4 Applicable Indian Standards

Index

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