Tải Kho ebook kỹ thuật cơ khí miễn phí

21st Century Manufacturing
1/ Manufacturing: Art, Technology, Science and Buiness
2/ Manufacturing Analysis: Some Basic Questions for a Star-up Company
3/ Product Design, Computer Adied Design (CAD) and Solid Modeling
4/ Solid Freeform Fabrication (SFF) and Rapid-Prototyping
5/ Semiconductor Manufacturing
6/ Computer Manufacturing
7/ Metal Products Manufacturing
8/ Plastic Products Manufacturing and Final Asembly
9/ Biotechnology
10/ Future Aspects of Manufacturing

The Boy Mechanic : 700 Things for Boys to Do
700 things and 800 illustrations showing how 🙂

750 Mechanism
với các cơ cấu thông dụng trong các nghành, chỉ đáng tiếc là bản tiếng Ý 😦 nhưng có hề chi, tham khảo hình ảnh cũng dc :)) bác nào có bản tiếng Anh thì chia sẻ mọi ng nhé 🙂

Technical Handbook (tra cứu)
1/ Conversions
2/ Equivalents
3/ Properties
4/ Pipe Data

Maintenance Fundamentals
1/ Impact of Maintenance
2/ Fundamental Requirements of Effective Preventive Maintenance
3/ Designing a Preventive Maintenance Program
4/ Planning and Scheduling
5/ Scheduled Preventive Maintenance
6/ Maintenance Ebgineering Roles and Responsibilities
7/ Shaft Alignment
8/ Rotor Balancing
9/ Bearings
10/ Couplings
11/ Gears and Gearboxes
12/ Compressors
13/ Control Valves
14/ Conveyors
15/ Fans, Blowers, and Fluidizers
16/ Dust Collectors
17/ Pumps
18/ Steam Traps
19/ Performance Measurement and Management

Metal Machining – Theory and Applications
1/ Introduction
2/ Chip Formation Fundamentals
3/ Work and Tool Materials
4/ Tool Damage
5/ Experimental Methods
6/ Advances in Mechanics
7/ Finite Element Methods
8/ Applications of Finite Element Analysis
9/ Process Selection, Improvement and Control

Kinematics and Mechanisms
1/ Linkages and Cams
2/ Tribology: Friction, Wear and Lubrication
3/ Machine Elements
4/ Crankshaft Journal Bearings
5/ Fluid Sealing in Machines, Mechanical Devices and Apparatus

Machinery Component Maintenance and Repair
Part 1: Background to Process Machinery Maintenances Programming
Part 2: Alignment and Balacing
Part 3: Maintenance and Repair of Machinery Components

Making Pistons for Experimental and Restoration Engines
1/ Basic Data and Piston Design
2/ Determining Head Thickness
3/ Rings and Wrist Pins
4/ Casting and Feeding
5/ Making Replacement Pistons
6/ Machining

Mechanical Actuator Design Guide
1/ Ideas & Application Guide to Mechanical Actuators
2/ Machine Screw Actuators
3/ Ball Screw Actuators
4/ Power Transmissions
5/ Motors
6/ Examples of Linear Motion Controls
7/ Motion Control Systems
8/ Engineering Guide

Clutches and Brakes Design and Selection
1/ Friction Materials
2/ Band Brakes
3/ Externally and Internally Pivoted Shoe Brakse
4/ Linearly Acting External and Internal Drum Brakes
5/ Dry and Wet Disk Brakes and Clutches
6/ Cone Brakes and Clutches
7/ Magnetic Particle, Hysteresis and Eddy-Current Brakes and Clutches
8/ Acceleration Time and Heat Dissipation Calculations
9/ Centrifugal, One-Way and Detent Clutches
10/ Frictions Drives with Clutch Capability
11/ Fluid Clutches and Brakes
12/ Antilock Braking Systems
13/ Brake Vibration
14/ Engineering Standards for Clutches and Brakes

Industrial Machinery Repair
1/ Introduction: Why Use Best Maintenance Repair Practices ?
2/ Fundamental Requirements of Effective Preventive/Predictive Maintenance
3/ Maintenance Skills Assessment
4/ Safety First, Safety Always
5/ Rotor Balancing
6/ Bearings
7/ Chain Drives
8/ Compressors
9/ Control Valves
10/ Conveyors
11/ Couplings
12/ Dust Collectors
13/ Fans, Blowers, and Fluidizers
14/ Gears and Gearboxes
15/ Hydraulics
16/ Lubrication
17/ Machinery Installation
18/ Mixers and Agitators
19/ Packing and Seals
20/ Precision Measurement
21/ Pumps
22/ Steam Traps
23/ V-Belt Drives
24/ Maintenance Welding

Machine Design Databook
1/ Properties of Engineering Materials
2/ Static Stresses in Machine Elements
3/ Dynamic Stresses in Machine Elements
4/ Stress Concentration and Stress Intensity in Machine Members
5/ Design of Machine Elements for Strength
6/ Cams
7/ Pipes, Tubes and Cylinders
8/ Design of Pressure Vessels, Plate and Shells
9/ Design of Power Boilers
10/ Rotating Disks and Cyllinders
11/ Metal Fits, Tolerances and Surface Texture
12/ Design of Welded Joints
13/ Riveted Joints
14/ Design of Shaft
15/ Flywheels
16/ Packings and Seals
17/ Keys, Pins, Cotters and Joints
18/ Threaded Fasteners and Screws for Power Transmission
19/ Couplings, Clutches and Brakes
20/ Springs
21/ Flexible Machine Elements
22/ Mechanical Vibrations
23/ Design Bearings and Tribology
24/ Miscellaneous Machine Elements
25/ Elements of Machine Tool Design
26/ Retaining Rings and Circlips
27/ Applied Elasticity

Process Selection – From Design to Manufacture
Part 1 : A Strategic View
Part 2 : Selecting Candidate Process
Part 3 : Costing Designs

Mechanical Science Handbooks
1/ Diesel Engines
2/ Fundamentals of the Diesel Cycle
3/ Diesel Engine Speed, Fuel Controls and Protection
4/ Valve Function and Basic Parts
5/ Types of Valve
6/ Valve Actuators

Process Engineering Equipment Handbook
các thiết bị từ vần A tới vần Z 🙂

Text Book of Machine Design
1/ Introduction
2/ Engineering Materials and Their Properties
3/ Manufacturing Considerations in Machine Design
4/ Simple Stresses in Machine Parts
5/ Torsional and Bending Stresses in Machine Parts
6/ Variable Stresses in Machine Parts
7/ Pressure Vessels
8/ Pipes and Pipe Joints
9/ Riveted Joints
10/ Welded Joints
11/ Screwed Joints
12/ Cotter and Knuckle Joints
13/ Keys and Coupling
14/ Shafts
15/ Levers
16/ Columns and Struts
17/ Power Screws
18/ Flat Belt Drives
19/ Flat Belt Pulleys
20/ V-Belt and Rope Drives
21/ Chain Drives
22/ Flywheel
23/ Springs
24/ Clutches
25/ Brakes
26/ Sliding Contact Bearings
27/ Rolling Contact Bearings
28/ Spur Gears
29/ Helical Gears
30/ Bevel Gears
31/ Worm Gears
32/ Internal Combusion Engine Parts

Mechanism Design – Enumeration of Kinematic Structures According to Function
1/ Introduction
2/ Basic Concepts of Graph Theory
3/ Structural Representations of Mechanisms
4/ Structural Analysis of Mechanisms
5/ Enumeration of Graph of Kinematic Chains
6/ Classification of Mechanisms
7/ Epicyclic Gear Trains
8/ Automotive Mechanisms
9/ Robotic Mechanisms

Mechanical Systems Design Handbook – Modeling, Measurement and Control
Section I: Manufacturing
Section II: Vibration Control
Section III: Dynamics and Control of Aerospace Systems
Section IV: Robotics

Cutting Tools Applications
1/ Cutting-Tool Materials
2/ Metal Removal Methods
3/ Machinability of Metals
4/ Turning Tools & Operations
5/ Turning Methods & Machines
6/ Grooving & Threading
7/ Shaping & Planing
8/ Drill & Drilling Operations
9/ Drilling Methods & Machines
10/ Boring Operations & Machines
11/ Reaming and Tapping
12/ Milling Cutters and Operations
13/ Milling Methods and Machines
14/ Broaches and Broaching
15/ Saw and Sawing
16/ Grinding Wheels and Operations
17/ Grinding Methods and Machines
18/ Lapping and Honing

Mechanical Engineer´s Handbook
Part 1: Materials and Mechanical Design
Part 2: Systems and Controls
Part 3: Manufacturing Engineering
Part 4: Energy, Power and Pollution Control Technology
Part 5: Management, Finance, Quality, Law and Research

Engineering Companion
1/ Engineering Units
2/ General Properties of Materials
3/ Engineering Mathematics
4/ Applied Chemistry
5/ Mechanics of Rigid Bodies
6/ Mechanics of Deformable Bodies
7/ Thermodynamics
8/ Mechanics of Fluids
9/ Heat and Mass Transfer
10/ Conservation Equations and Dimensionless Groups
11/ Topics in Applied Physics
12/ Automatic Control
13/ Mechanical Engineering
14/ Civil Engineering and Hydraulic Engineering
15/ Chemical Engineering, Environmental Engineering and Petroleum and Gas Engineering
16/ Electrical Engineering
17/ Electronics Engineering
18/ Reliability Engineering, Systems Engineering and Safety Engineering
19/ Measurements in Engineering
20/ Engineering Economy, Patents and Copyrights

Standard Handbook of Machine Design
1/ Introduction: Standards, Codes, Regulations
2/ Statistical Considerations
3/ Measurement and Inference
4/ Numerical Methods
5/ Computational Considerations
6/ Wear
7/ Solid Materials
8/ The Strength of Cold-Worked and Heat-Treated Steels
9/ Usability
10/ Safety
11/ Minimizing Enginnering Effort
12/ Strength under Static Circumstances
13/ Strength under Dynamic Conditions
14/ Fundamentals of Arc Welding
15/ Instabilities i Beam and Columns
16/ Curved Beams and Rings
17/ Seals
18/ Flywheels
19/ Limits and Fits
20/ Power Screw
21/ Threaded Fasteners
22/ Unthreaded Fasteners
23/ Bolted and Riveted Joints
24/ Springs
25/ Lubrication
26/ Gaskets
27/ Rolling-Contact Bearings
28/ Journal Bearings
29/ Couplings
30/ Clutches and Brakes
31/ Belt Drives
32/ Chain Drives
33/ Spur Gears
34/ Bevel and Hypoid Gears
35/ Helical Gears
36/ Worm Gearing
37/ Shafts
38/ Vibration and Control of Vibration
39/ A Thesaurus of Mechanisms
40/ Cam Mechanisms
41/ Linkages
42/ Load-Cycle Analysis
43/ Fluid Power Systems and Circuit Design
44/ Corrosion
45/ Noise and Its Control
46/ Gear Trains
47/ Robots and Smart Machines
48/ Section and Shapes-Tabular Data
49/ Stress
50/ Deflection

Mechanisms and Mechanical Devices Sourcebook
1/ Motion Control Systems
2/ Robot Mechanism
3/ Parts-Handling Mechanisms
4/ Reciprocating and General-Purpose Mechanisms
5/ Special-Purpose Mechanisms
6/ Springs, Bellow, Flexure, Screw and Ball Devices
7/ Cam, Toggle, Chain and Belt Mechanisms
8/ Geared Systems and Variable-Speed Mechanisms
9/ Coupling, Clutching and Braking Devices
10/ Torque-Limiting, Tensioning and Governing Devices
11/ Pneumatic and Hydraulic Machine and Mechanism Control
12/ Fastening, Latching, Clamping and Chucking Devices
13/ Key Equations and Charts for Designing Mechanisms
14/ New Directions in Machine Design

Dimensioning and Tolerancing Handbook
Part 1 : History/Lessons Learned
Part 2 : Standard
Part 3 : Design
Part 4 : Manufacturing
Part 5 : Gaging
Part 6 : Precision Metrology
Part 7 : Applications
Part 8 : The Future

Fundamentals of Machine Design
1/ Fundamentals of Machine Design
2/ Stresses in Machine Elements
3/ Design for Strength
4/ Fasteners
5/ Couplings
6/ Power Screws
7/ Design of Springs
8/ Design of Shaft
9/ Thin and Thick Cylinders
10/ Design of Permanent Joints
11/ Design of Joints for Special Loading
12/ Design of Brakes
13/ Belt Drives
14/ Brief Overview of Bearings

Experimentation and Measurement
1/ INtroduction
2/ Why We Need Measurements
3/ Measurements in Experimentation
4/ Typical Collections of Measurements
5/ Methematics of Measurement
6/ Instruments f
or Making Measurements
7/ Experiment with Weighing Machines
8/ Selection of Items for Measurement
9/ Measurement of Thread Strength

Engineering Tribology
1/ Introductions
2/ Physical Properties of Lubrications
3/ Lubrications and Their Composition
4/ Hydrodynamic Lubrication
5/ Computational Hydrodynamics
6/ Hydrostatic Lubrication
7/ Elastohydrodynamic Lubrication
8/ Boundary and Extreme Pressure Lubrication
9/ Solid Lubrication and Surface Treatments
10/ Fundamentals of Contact Between Solids
11/ Abrasive, Erosive and Cavitation Wear
12/ Adhesion and Adhesive Wear
13/ Corrosive and Oxidative Wear
14/ Fatigue Wear
15/ Fretting and Minor Wear Mechanisms
16/ Wear of Non-Metallic Materials

Advanced Vehicle Technology
1/ Vehicle Structure
2/ Friction Clutch
3/ Manual Gearboxes and Overdrives
4/ Hydrokinetic Fluid Couplings and Torque Converters
5/ Semi-and Fully Automatic Transmission
6/ Transmission Bearing and Constant Velocity Joints
7/ Final Drive Transmission
8/ Tyres
9/ Steering
10/ Suspension
11/ Brake System
12/ Air Operated Power Brake Equipment and Vehicle Retarders
13/ Vehicle Refrigeration
14/ Vehicle Body Aerodynamics

Bearing Design in Machinery
1/ Classification and Selection of Bearings
2/ Lubrication Viscosity
3/ Fundamental Properties of Lubricants
4/ Principles of Hydrodynamics Lubrication
5/ Basic Hydrodynamic Equations
6/ Long Hydrodynamic Journal Bearing
7/ Short Journal Bearings
8/ Design Charts for Finite-Length Journal Bearings
9/ Practical Applications of Journal Bearings
10/ Hydrostatic Bearings
11/ Bearing Materials
12/ Rolling Element Bearings
13/ Selection and Design of Rolling Bearings
14/ Testing of Friction and Wear
15/ Hydrodynamic Bearings Under Dynamic Conditions
16/ Friction Characteristics
17/ Modeling Dynamic Friction
18/ Case Study: Composite Bearing-Rolling Element and Fluid Film in Series
19/ Non-Newtonian Viscoelastic Effects
20/ Orthopedic Joints Implant

AIAA Design Engineers Guide
Section 1 : Mathematics
Section 2 : Section Properties
Section 3 : Conversion Factors
Section 4 : Structural Elements
Section 5 : Mechanical Design
Section 6 : Electrical/Electronics
Section 7 : Aircraft Design
Section 8 : Earth, Sea and Solar System
Section 9 : Materials and Specifications

Rough Surfaces
Part 1 : Measurement
Part 2 : Characterization
Part 3 : Applications

Machinery’s Handbook
1/ Mathematics
2/ Mechanics and Strength of Materials
3/ Properties, Treatment and Testing of Materials
4/ Dimensioning, Gaging and Measuring
5/ Tooling and Toolmarking
6/ Machining Operations
7/ Manufacturing Processes
8/ Fasteners
9/ Threads and Threading
10/ Gears, Splines and Cams
11/ Machine Elements
12/ Measuring Units

Handbook of Mechanical Engineering Calculations
Part 1 : Power Generation
Part 2 : Plant and Facilities Engineering
Part 3 : Environmental Control
Part 4 : Desgin Engineering

Advanced Welding Processes
1/ An Introduction to Welding Processes
2/ Advanced Process Development Trends
3/ Welding Power Source Technology
4/ Filler materials for Arc Welding
5/ Gases for Advanced Welding Processes
6/ Advanced GTAW
7/ Gas Metal Arc Welding
8/ High Energy Density Processes
9/ Narrow-Gap Welding Techniques
10/ Monitoring and Control of Welding Processes
11/ Welding Automation and Robotics

Handbook of Micro and Nano Tribology
Part 1 : Basic Studies
Part 2 : Applications

Applications Industrielles
nội dung tiếng Pháp, nhưng minh họa = hình ảnh rất nhiều, cũng khá hay 🙂

Auto Repair For Dummies
Part 1 : Getting Started
Part 2 : What Makes It Go ?
Part 3 : Keeping Your Car in Good Condition, System by System
Part 4 : Dealing with On-the-Road Emergencies
Part 5 : Helping Your Vehicle Look Its Best
Part 6 : The Part of Tens

Dynamic Mechanical Analysis
1/ An Introduction to Dynamic Mechanical Analysis
2/ Basic Rheological Concepts: Stress, Strain and Flow
3/ Rheology Basics: Creep-Recovery and Stress Relaxation
4/ Dynamic Testing
5/ Time-Temperature Scans: Transitions in Polymers
6/ Time and Temperature Studies: Thermosets
7/ Frequency Scans
8/ DMA Applications to Real Problems: Guidelines

Corrosion Control Through Organic Coatings
1/ Introduction
2/ Composition of the Anticorrosion Coating
3/ Waterborme Coastings
4/ Blast Cleaning and Other Heavy Surface Pretreatments
5/ Abrasive Blasting and Heavy-Metal Contamination
6/ Weathering and Aging of Paitn
7/ Corrosion Testing-Background and Theoretical Considerations
8/ Corrosion Testing-Practice

Friction, Wear, Lubrication
1/ The State of Knowledge in Tribology
2/ Strength and Deformation Properties of Solids
3/ Adhesion and Cohesion Properties of Solids: Adsorption to Solids
4/ Solid Surfaces
5/ Contact of Nonconforming Surfaces and Temperature Rise on Sliding Surfaces
6/ Friction
7/ Lubrication by Inert Fluids, Greases and Solids
8/ Wear
9/ Lubricated Sliding-Chemical and Physical Effects
10/ Equations for Friction and Wear
11/ Designing for Wear Life and Frictional Performance: Wear Testing, Friction Testing and Simulation
12/ Diagnosing Tribological Problems

Dictionary of Engineering

Cooling and Lubrication System Maintenance
1/ Determining Cooling System
2/ Servicing the Cooling System
3/ Determining Lubrication System Serviceability
4/ Servicing the Lubrication System

Friction and Lub
rication in Mechanical Design

1/ Introduction
2/ The Contact Between Smooth Surfaces
3/ Traction Distribution and Microslip in Frictional Contacts Between Smooth Elastic Bodies
4/ The Contact Between Rough Surfaces
5/ Thermal Considerations in Tribology
6/ Design of Fluid Film Bearings
7/ Friction and Lubrication in Rolling/Sliding Contacts
8/ Wear
9/ Case Illustrations of Surfaces Damage
10/ Friction in Micromechanisms
11/ Friction-Induced Sound and Vibration
12/ Surface Coating
13/ Some Experimental Studies in Friction, Lubrication, Wear and Thermal Shock

Geometric Dimensioning and Tolerancing for Mechanical Design
1/ Introduction to Geometric Dimensioning and Tolerancing
2/ Dimensioning and Tolerancing Fundamentals
3/ Symbols, Terms and Rules
4/ Datums
5/ Form
6/ Orientation
7/ Position, General
8/ Position, Location
9/ Position, Coaxiality
10/ Concentricity and Symmetry
11/ Runout
12/ Profile
13/ Graphic Analysis
14/ A Strategy for Tolerancing Parts

Fundamentals of Structural Analysis
1/ Truss Analysis: Matrix Displacement Method
2/ Truss Analysis: Force Method, Part 1
3/ Truss Analysis: Force Method, Part 2
4/ Beam and Frame Analysis: Force Method, Part 1
5/ Beam and Frame Analysis: Force Method, Part 2
6/ Beam and Frame Analysis: Force Method, Part 3
7/ Beam and Frame Analysis: Displacement Method, Part 1
8/ Beam and Frame Analysis: Displacement Method, Part 2
9/ Influence Lines
10/ Other Topics
11/ Matrix Algebra Review
12/ Solution to Problems

Handbook of Mass Measurement
1/ Mass and Mass Standards
2/ Recalibration of Mass Standards
3/ Contamination of Mass Standards
4/ Cleaning of Mass Standards
5/ From Balance Observations to Mass Differences
6/ Glossary of Statistical Terms
7/ Measurement Uncertainy
8/ Weighing Designs
9/ Calibration of the Screen and the Built-in Weights of a Direct-Reading Analytical Balance
10/ A Look at the Electronic Balance
11/ Examples of Buoyancy Corrections in Weighing
12/ Air Density Equation
13/ Density of Solid Objects
14/ Calculation of the Density of Water
15/ Conventional Value of the Result of Weighing in Air
16/ A Comparision of Error Propagations for Mass and Conventional Mass
17/ Examination of Parameters That Can Cause Error in Mass Determinations
18/ Determination of the Mass of a Piston-Gauge Weight, Practical Uncertainy Limits
19/ Response of Apparent Mass to Thermal Gradients and Free Convective Currents
20/ Magnectic Error in Mass Metrology
21/ Effect of Gravitational Configuration of Weights on Precision of Mass Measurements
22/ Between-Time Component of Error in Mass Measurements
23/ Laboratory Standard Operating Procedure and Weighing Practices
24/ Control Charts
25/ Tolerance Testing of Mass Standards
26/ Surveillance Testing
27/ The Mass Unit Disseminated to Surrogate Laboratories Using the NIST Portable Mass Calibration Package
28/ Highly Accurate Direct Mass Measurements without the Use of External Standards
29/ The Piggyback Balance Experiment: An Illustration of Archimedes’ Principle and Newton’s Third Law
30/ The Application of the Electronic Balance in High-Precision Pycnometry

Handbook of Corrosion Engineering
1/ Aqueous Corrosion
2/ Environments
3/ High-Temperature Corrosion
4/ Modeling, Life Prediction and Computer Applications
5/ Corrosion Failure
6/ Corrosion Maintenance Through Inspection and Monitoring
7/ Acceleration and Amplification of Corrosion Damage
8/ Materials Selection
9/ Protective Coatings
10/ Corrosion Inhibitors
11/ Cathodic Protection
12/ Anodic Protection

Gear Noise and Vibration
1/ Causes of Noise
2/ Harris Mapping for Spur Gears
3/ Theoretical Helical Effects
4/ Prediction of Static T.E
5/ Prediction of Dynamic Effects
6/ Measurements
7/ Transmission Error Measurement
8/ Recording and Storage
9/ Analysis Techniques
10/ Improvements
11/ Lightly Loaded Gears
12/ Planetary and Split Drives
13/ High Contact Ratio Gears
14/ Low Contact Ratio Gears
15/ Condition Monitoring
16/ Vibration Testing
17/ Couplings
18/ Failures
19/ Strength Versus Noise

Guidelines for Engineering Design for Process Safety
1/ Introduction
2/ Inherently Safer Plants
3/ Plant Design
4/ Equipment Design
5/ Materials Selection
6/ Piping Systems
7/ Heat Transfer Fluid Systems
8/ Thermal Insulation
9/ Process Monitoring and Control
10/ Documentation
11/ Sources of Ignition
12/ Electrical System Hazards
13/ Deflagration and Detonation Flame Arresters
14/ Pressure Relief Systems
15/ Effluent Disposal Systems
16/ Fire Protection
17/ Explosion Protection

HPLC a Practical User’s Guide
A/ HPLC Primer
B/ HPLC Optimization
C/ HPLC Utilization

Instrumentation Symbols and Identification
1/ Purpose
2/ Scope
3/ Definitions
4/ Outline of the Identification System
5/ Tables
6/ Drawings

Intelligent Vehicle Technology and Trends
1/ Introduction
2/ Goals and Visions for the Future
3/ Application Areas
4/ Government-Industry R&D Programs and Strategies
5/ Priorities and Strategies for the Vehicle Industry
6/ Lateral/Side Sensing and Control Systems
7/ Longitudinal Sensing and Control Systems
8/ Intergrated Lateral and Longitudinal Control and Sensing Systems
9/ Cooperative Vehicle-Highway Systems (CVHS)
10/ Fully Automated Vehicles
11/ Extending the Information Horizon Through Floating Car Data Systems
12/ As Human-Centered Systems
13/ Systems Interacting with Society and the Market
14/ Looking Forward: Enabling Technologies and Future Trends
15/ Conclusion

Inspection, Evaluation and Repair of Steel Structures
1/ Introduction
2/ Causes of Structural Deterioration
3/ Periodic Inspection
4/ Detailed Inspection
5/ Material and Weld Testing
6/ Structural Evaluation
7/ Examples and Material Standards
8/ Repair Cinsiderations

Introduction to Statics And Dynamics
1/ What Is Mechanics ?
2/ Vectors for Mechanics
3/ Free Body Diagrams
4/ Statics
5/ Dynamics of Particles
6/ Constrained Straight Line Motion
7/ Circul
ar Motion
8/ General Planar Motion of a Single Rigid Body
9/ Kinematics Using Time-Varying Base Vectors
10/ Mechanics of Constrained Particles and Rigid Bodies
11/ Introduction to Three Dimensional Rigid Body Mechanics

Handbook of Shaft Alignment
1/ Introduction to Shaft Alignment
2/ Detecting Misalignment on Rotating Machinery
3/ Foundations, Baseplates, Installation and Piping Strain
4/ Flexible and Rigid Couplings
5/ Preliminary Alignment Checks
6/ Shaft Alignment Measuring Tools
7/ Correcting Misalignment
8/ Alignment Modeling Basics
9/ Defining Misalignment: Alignment and Coupling Tolerances
10/ Reverse Indicator Method
11/ Face and Rim Methods
12/ Double Radial Method
13/ Shaft to Coupling Spool Method
14/ Face-Face Method
15/ Electronic and Electro-Optical Shaft Alignment Systems
16/ Measuring and Compensating for Off-Line to Running Machinery Movement
17/ Aligning Multiple-Element Drive Systems
18/ Aligning V-Belt Drives
19/ Bore Alignment
20/ Parallel Alignment
21/ Alignment Considerations for Specifics Types of Machinery
22/ The History of Machinery Alignment

Coatings Technology Handbook
1/ Fundamentals and Testing
2/ Coasting and Processing Techniques
3/ Materials
4/ Surfaces Coastings

Industrial Power Engineering and Applications Handbook
A/ Selection, Testing, COntrols and Protection of Electric Motors
B/ Switchgear Assemblies and Captive Power Generation
C/ Voltage Surges, Overvoltages and Grounding Practices
D/ Power Capacitors
E/ Bus Systems

Fundamentals of Machine Component Design
1/ Safety, Ecology, Social Concerns
2/ Free-Body Load Analysis
3/ Materials
4/ Static Stresses
5/ Strain, Buckling
6/ Failure Theories, Fracture Mechanics
7/ Impact
8/ Fatigue
9/ Corrosion
Wear and Surface Fatigue
10/ Threaded Fasteners
Power Screws
11/ Rivet, Weld, Bond
12/ Torsion Bar and Helical Springs
Cantilever and Leaf Springs
Miscellanenous Springs
13/ Lubrication and Sliding Bearings
14/ Rolling-Element Bearings
15/ Spur Gears
16/ Other Gears
17/ Shafts, etcetera
18/ Clutches, Brakes
19/ Miscellanenous Components
20/ Case Study

Handbook of Workability and Process Design
A/ Introduction
B/ Workability Testing Techniques
C/ Process Design and Workability
D/ Multidisciplinary Process Design and Optimization
E/ Reference Information

Handbook of Lubrication
1/ Friction, Wear and Lubrication Theory
2/ Lubricants and Their Application
3/ Design Principles

Internal Combustion Engines Fundamentals
1/ Engine Types and Their Operation
2/ Engine Design and Operating Parameters
3/ Thermochemistry of Fuel-Air Mixtures
4/ Properties of Working Fluids
5/ Ideal Models of Engine Cycles
6/ Gas Exchange Processes
7/ SI Engine Fuel Metering and Manifold
8/ Charge Motion within the Cylinder
9/ Combustion in Spark-Ignition Engines
10/ Combustion in Compression-Ignition Engines
11/ Pollutant Formation and Control
12/ Engine Heat Transfer
13/ Engine Friction and Lubrication
14/ Modeling Real Engine Flow and Combustion Processes
15/ Engine Operating Characteristics

Handbook of Nano-Technology
Part A : Nanostructures, Micro/Nanofabrication and Micro/Nanodevices
Part B : Scanning Probe Microscopy
Part C : Nanotribology and Nanomechanics
Part D : Molecularly Thick Films for Lubrication
Part E : Industrial Applications and Microdevice Reliability
Part F : Social and Ethical Implication
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1999 HVAC Applications
1/ Residences
2/ Retail Facilities
3/ Commercial and Public Buildings
4/ Places of Assembly
5/ Hotels, Motels, and Dormitories
6/ Educational Facilities
7/ Health Care Facilities
8/ Surface Transportation
9/ Aircraft
10/ Ships
ll/ Industrial Air Conditioning
12/ Enclosed Vehicular Facilities
13/ Laboratories
14/ Engine Test Facilities
15/ Clean Spaces
l6/ Data Processing and Elec. Office Areas
17/ All Printing Plants
18/ Textile Processing Plants
19/ Photographic Materials
20/ Museums, Libraries, and Archives
21/ Environ. Control for Animals and Plants
22/ Drying and Storing Selected Farm Crops
23/ AC of Wood and Paper Product Facilities
24/ Power Plants
25/ Nuclear Facilities
26/ Mine Air Conditioning and Ventilation
27/ Industrial Drying Systems
28/ Ventilation of the Industrial Environment
29/ Industrial Local Exhaust Systems
30/ Kitchen Ventilation
31/ Geothermal Energy
32/ Solar Energy Use
33/ Thermal Storage
34/ Energy Management
35/ Owning and Operating Costs
36/ Testing, Adjusting, and Balancing
37/ Operation and Maintenance Management
38/ Computer Applications
39/ Building Energy Monitoring
40/ Control Strategies and Optimization
41/ Building Commissioning
42/ Building Envelopes
43/ Building Air Intake and Exhaust Design
44/ Gaseous Indoor Air Contaminant Control
45/ Design and Application of Controls
46/ Sound and Vibration Control
47/ Water Treatment
48/ Service Water Heating
49/ Snow Melting
50/ Evaporative Cooling Applications
51/ Fire and Smoke Management
52/ Radiant Heating and Cooling
53/ Seismic and Wind Restraint Design
54/ Codes and Standards

Handbook of Computational Fluid Mechanics
1/ About the basic numerical methods
2/ Navier-Stokes equations for incompressible flows: finite-difference and finite-volume methods
3/ Navier-Stokes equations for incompressible flows: finite-element methods
4/ Euler and Navier-Stokes equations for compressible flows: finite-volume methods
5/ Turbulent flows: direct numerical simulation and large-eddy simulation
6/ Turbulent flows: model equations and solution methodology
7/ Mesh generation and adaptivity for complex geometries and flows

2000 HVAC Systems and Equipment
1/ HVAC System Analysis and Selection
2/ Building Air Distribution
3/ In-Room Terminal Systems
4/ Central Cooling and Heating
5/ Decentralized Cooling and Heating
6/ Panel Heating and Cooling
7/ Cogeneration and Engine and Turbine Drives
8/ Applied Heat Pump and Heat Recovery
9/ Small Forced-Air Heating and Cooling
10/ Steam Systems
11/ District Heating and Cooling
12/ Hydronic Heating and Cooling
13/ Condenser Water Systems
14/ Medium- and High-Temp. Water Heating
15/ Infrared Radiant Heating
16/ Duct Construction
17/ Air-Diffusing Equipment
18/ Fans
19/ Evaporative Air Cooling Equipment
20/ Humidifiers
21/ Air-Cooling and Dehumidifying Coils
22/ Desiccant Dehumid. and Pressure Drying
23/ Air-Heating Coils
24/ Air Cleaners for Particulate Contaminants
25/ Industrial Gas Cleaning & Pollution Control • S37
26/ Automatic Fuel-Burning Equipment
27/ Boilers
28/ Furnaces
29/ Residential In-Space Heating Equipment
30/ Chimney, Gas Vent, and Fireplace Systems
31/ Unit Ventilators & Heaters, & Makeup Air
32/ Hydronic Heat-Distributing Units
33/ Solar Energy Equipment
34/ Compressors
35/ Condensers
36/ Cooling Towers
37/ Liquid Coolers
38/ Liquid Chilling Systems
39/ Centrifugal Pumps
40/ Motors, Controls, & Variable-Speed Drives
41/ Pipes, Tubes, and Fittings
42/ Valves
43/ Heat Exchangers
44/ Air-to-Air Energy Recovery
45/ Unitary AC and Heat Pumps
46/ Room AC, PTAC, and Dehumidifiers
47/ Engine-Driven Heating and Cooling
48/ Codes and Standards

Standard Handbook for Mechanical Engineers
1/ Mathematical Tables and Measuring Units
2/ Mathematics
3/ Mechanics of Solids and Fluids
4/ Heat
5/ Strength of Materials
6/ Materials of Engineering
7/ Fuels and Furnaces
8/ Machine Elements
9/ Power Generation
10/ Materials Handling
11/ Transportat
12/ Building Construction and Equipment
13/ Manufacturing Processes
14/ Fans, Pumps, and Compressors
15/ Electrical and Electronics Engineering
16/ Instruments and Controls
17/ Industrial Engineering
18/ The Engineering Environment
19/ Refrigeration, Cryogenics, Optics, and Miscellaneous

The Tribology Handbook
1/ Selection of bearings
2/ Plain bearings
3/ Rolling bearings
4/ Special bearings
5/ Rotary drives
6/ Linear drives
7/ Seals
8/ Lubricants
9/ Lubrication of components
10/ Lubrication systems
11/ Lubrication system components
12/ Operation of lubrication systems and machines
13/ Environmental effects
14/ Failures
15/ Maintenance
16/ Repair
17/ Basic information
18/ Design reference

Vorticity and Vortex Dynamics
I/ Vorticity Dynamics
II/ Vortex Dynamics
III/ Vortical Flow Instability, Transition and Turbulence
IV/ Special Topics

Rules of Thumb for Mechanical Engineers
1/ Fluids
2/ Heat Transfer
3/ Thermodynamics
4/ Mechanical Seals
5/ Pumps and Compressors
6/ Drivers
7/ Gears
8/ Bearings
9/ Piping and Pressure Vessels
10/ Tribology
11/ Vibration
12/ Materials
13/ Stress and Strain
14/ Fatigue
15/ Instrumentation
16/ Engineering Economics

Stirling and Hot Air Engines
1/ A Brief History of the Stirling Engine
2/ Principles and Peỏmance Enhancing Techniques
3/ Design Variations
4/ Gamma Hot Air Engines
5/ Ringbom Hot Air Engines
6/ Low Temperature Differential Hot Air Engines
7/ Martini Hot Air Emgines
8/ Marble Engines
9/ Unique Twin-Cylinder Boat Engine
10/ Stirling Silver I (Twin-Cylinder Gamma Engine)
11/ Solar Engine (Single-Cylinder Beta Engine)
12/ Stirling Silver II (Single-Cylinder Beta Engine)
13/ Buggy (Single-Cylinder Gamma Engine)
14/ Lag (Thermo-Acoustic Engines)
15/ Other Interesting Stirling Engines
16/ Workshop Practice and Techniques
17/ Plans-Replica Stirling Silver II (Single-Cylinder Beta Engine)

Classical Mechanics
1/ Survey of the Elementary Principles
2/ Variational Principles and Lagrange’s Equations
3/ The Central Force problem
4/ The Kinematics of Rigid Body Motion
5/ The Rigid Body Equations of Motion
6/ Oscillations
7/ The Classical Mechanical of the Special Theory of Relativity
8/ The Hamilton Equations of Motion
9/ Canonical Transformations
10/ Hamilton-Jacobi Theory and Action-Angle Variables
11/ Classical Chaos
12/ Canonical Perturbation Theory
13/ Introduction to the Lagrangian and Hamiltonian Formulations for Continous Systems and Fields

Dynamics of Mechanical Systems
1/ Introduction
2/ Review of Vector Algebra
3/ Kinematics of a Particle
4/ Kinematics of a Rigid Body
5/ Planar Motion of Rigid Bodies — Methods of Analysis
6/ Forces and Force Systems
7/ Inertia, Second Moment Vectors, Moments and Products of Inertia, Inertia Dyadics
8/ Principles of Dynamics: Newton’s Laws and d’Alembert’s Principle
9/ Principles of Impulse and Momentum
10/ Introduction to Energy Methods
11/ Generalized Dynamics: Kinematics and Kinetics
12/ Generalized Dynamics: Kane’s Equations and Lagrange’s Equations
13/ Introduction to Vibrations
14/ Stability
15/ Balancing
16/ Mechanical Components: Cams
17/ Mechanical Components: Gears
18/ Introduction to Multibody Dynamics
19/ Introduction to Robot Dynamics
20/ Application with Biosystems, Human Body Dynamics

Differential Equations and Their Applications
1/ Introduction
2/ Linear Equations
3/ Method of Optimal Control
4/ Four Step Scheme
5/ Linear, Degenerate Backward Stochastic Partial Differential Equations
6/ The Method of Continuation
7/ FBSDEs with Reflections
8/ Applications of FBSDEs
9/ Numerical Methods for FBSDEs

Advanced Engineering Dynamics
1/ Newtonian Mechanics
2/ Lagrange’s Equations
3/ Hamilton’s Principle
4/ Rigid Body Motion in Three Dimensions
5/ Dynamics of Vehicles
6/ Impact and One-Dimensional Wave Propagation
7/ Waves in a Three-Dimensional Elastic Solid
8/ Robot Arm Dynamics
9/ Relativity

Applied Structural and Mechanical Vibrations
I/ Theory and Methods
II/ Measuring Instrumentation

A Geometric Control of Mechanical Systems.. modeling, analysis and design for simple mechanical control systems
I/ Modeling of Mechanical Systems
II/ Analysis of Mechanical Control Systems
III/ A Sampling of Design Methodologies

The Motor Vehicle
A/ The Engine
B/ Transmission
C/ The Carriage Unit

Micromanufacturing and Nanotechnology
1/ Introduction
2/ Principles of MEMS and MOEMS
3/ Laser Technology in Micromanufacturing
4/ Soft Geometrical Error Compensation Methods Using Laser Interferometer
5/ Characterising Etching Process in Bulk Micromachining
6/ Features of Surface Micromachining and Wafer Bonding Process
7/ Micromanufacturing for Document Security: Optically Variable Device
8/ Nanofinishing Techniques
9/ Micro and Nanotechnology Applications for Space Micropropulsion
10/ Carbon Nanotube Production and Applications: Basis of Nanotechnology
11/ Carbon-Based Nanostructures
12/ Molecular Logic Gates
13/ Nanomechanical Cantilever Devices for Biological Sensors
14/ Micro Energy and Chemical Systems and Multiscale Fabrication
15/ Sculptured Thin Films
16/ e-Beam Nanolithography Integrated with Nanoassembly: PCE
17/ Nanolithography in the Evanescent Near Field
18/ Nanotechnology for Fuel Cell Applications
19/ Derivatisation of Carbon Nanotubes with Amines
20/ Chemical Crosslinking in C60 Thin Films

Mechanism of Steam Engines
1/ General Disscusion of a Reciprocating Steam Engine
2/ Single-Valve Engines
3/ Valve Diagrams
4/ Typical Problems on the Slide-Valve Engine
5/ Governing Devices for Single-Valve Engines
6/ Riding Cut-Off Valves and Their Governing Devices
7/ Multiple-Valve Engines
8/ Hand-Operated Reversing and Controlling Gears
9/ Valve Setting
10/ Steam Turbines
11/ Turbine Valve Mechanisms and Governors

Reduce Vibration in Metal Cutting

Ship Hydrostatics and Stability

Shock and Vi
bration Handbook


Simulating Fatigue Cr*cks Growth in Spiral Bevel Gears

Standard Mechanisms

The Design Manual

The Design of Manufacturing Systems

Turbo Machinery Dynamics

Systematic Drilling and Blasting for Surface Excavations

Worm Gearing

The Handbook of Science and Technology Studies

Tribology in Machine Design

The Design of Rolling Bearing Mountings

Aircraft Design – Systhesis anh Analysis

Engineering Mechanics Statics – Examples

Lubrication Fundamentals
1/ Introduction
2/ Refining Processes and Lubricant Base Stocks
3/ Lubricating Oils
4/ Lubricating Greases
5/ Synthetic Lubricants
6/ Environmental Lubricants
7/ Hydraulics
8/ Lubricating Films and Machine Elements: Bearings, Slides, Ways, Gears, Couplings, Chains, Wire Rope
9/ Lubricant Application
10/ Internal Combustion Engines
11/ Stationary Gas Turbines
12/ Steam Turbines
13/ Hydraulic Turbines
14/ Nuclear Reactors and Power Generation
15/ Automotive Chassis Components
16/ Automotive Transmissions and Drive Trains
17/ Compressors
18/ Handling, Storing, and Dispensing Lubricants
19/ In-Plant Handling and Purification for Lubricant Conservation

Modern Tribology Handbook
1/ Surface Physics in Tribology
2/ Surface Roughness Analysis and Measurement Techniques
3/ Contact Between Solid Surfaces
4/ Adhesion of Solid: Mechanicaal Aspects
5/ Friction
6/ Frictional Heating and Contact Temperatures
7/ Wear Mechanisms
8/ Wear Debris Classification
9/ Wear Maps
10/ Liquid Lubricants and Lubrication
11/ Hydrodynamic and Elastohydrodynamic Lubrication
12/ Boundary Lubrication and Boundary Lubricating Films
13/ Friction and Wear Measurement Techniques
14/ Simulative Friction and Wear Testing
15/ Friction and Wear Data Bank
16/ Microtribology and Microrheology of Moleculary Thin Liquid Films
17/ Measurement of Adhesion and Pull-off Forces with AFM
18/ Atomic-Scale Friction Studies Using Scanning Force Microscopy
19/ Friction, Scratching/Wear, Identation Using Scanning probe Microscopy
20/ Computer Simulations of Friction, Lubrication, and Wear
21/ Metals and Ceramics
22/ Solid Lubricants and Self-Lubricating Films
23/ Tribological Properties of Metallic and Ceramics Coastings
24/ Tribology of Diamond, Diamond-Like Carbon, and Related Films
25/ Self-assembled Monolayers for Controling Hydrophobicity and/or Friction and Wear
26/ Mechanical and Tribological Requirements and Evaluation of Coasting
27/ Slider Bearings
28/ Rolling Element Bearing
29/ Gears
30/ Rotary Dynamic Seals
31/ Space Tribology
32/ Automotive Tribology
33/ Diesel Engine Tribology
34/ Tribology of Rail Transport
35/ Tribology of Earthmoving, Mining, and Minerals Processing
36/ Marine Equipment Tribology
37/ Tribology in Manufacturing
38/ Macro- and Microtribology of Magnetic Storage Devices
39/ Macro- and Microtribology of MEMS Materials
40/ Mechanics and Tribology of Flexible Media in Information Processing Systems
41/ Biomedical Applications
42/ Technologies for Machinery Diagnosis and Prognosis

Continuum Mechanics
1/ Introduction
2/ Tensors
3/ Kinematics of a Continuum
4/ Stress
5/ The Elastic Solid
6/ Newtonian Viscous Fluid
7/ Integral Formulation of General Principles
8/ Non-Newtonian Fluids

Dimensioning and Tolerancing
1/ Scope, Definitions, and General Dimensioning
2/ General Tolerencing and Related Principles
3/ Symbology
4/ Datum Referencing
5/ Tolerances of Location
6/ Tolerances of Form, Profile, Orientation, and Runout

IADC Drilling Manual

Tyre and Vehicle Dynamics
1/ Tyre Characteristics and Vehicle Handling and Stability
2/ Basic Tyre Modeling Considerations
3/ Theory of Steady-State Slip Force and Moment Generation
4/ Semi-Empirical Tyre Models
5/ Non-Steady-State out-of-Plane String-Based Tyre Models
6/ Theory of the Wheel Shimmy Phenomenon
7/ Single Contact Point Transient Tyre Models
8/ Applications of Transient Tyre Models
9/ Short Wavelength intermediate Frequency Tyre Model
10/ Motorcycle Dynamics

Advanced Engineering Mathematics
1/ Complex Variables
2/ Fourier Series
3/ The Fourier Transform
4/ The Laplace Transform
5/ The Z-Transform
6/ The Sturm-Liouville Problem
7/ The Wave Equation
8/ The Heat Equation
9/ Laplace’s Equation
10/ Vector Analysis
11/ Linear Algebra

Design Manual Metric
1/ General Information
2/ Hearings, Environmental, and Permits
3/ Project Documentation
4/ Project Design Criteria
5/ Soils and Paving
6/ Geometrics
7/ Roadside Safety Elements
8/ Traffic Safety Elements
9/ Interchanges and Intersections
10/ Auxiliary Facilities
11/ Structures
12/ Hydraulics
13/ Roadside Development
14/ Right of Way and Access Control

What Went Wrong
1/ Preparation for Maintenance
2/ Modifications
3/ Accidents Caused by Human Error
4/ Labeling
5/ Storage Tanks
6/ Stacks
7/ Leaks
8/ Liquefied Flammable Gases
9/ Pipe and Vessel Failures
10/ Other Equipment
11/ Entry to Vessels
12/ Hazards of Common Materials
13/ Tank Trucks and Cars
14/ . Testing of Trips and Other Protective Systems
15/ Static Electricity
16/ Materials of Construction
17/ Operating Methods
18/ Reverse Flow and Other Unforeseen Deviations
19/ I Didn’t Know That
20/ Problems with Computer Control
21/ Inherently Safer Design
22/ Reactions-Planned and Unplanned

A Textbook of Mechanical Engineering

Mechanical Engineering’s Handbook

Diesel Engine Fundamentals

Mechanical Drawing Problems

Manual Gearbox Design
1/ Crown wheel and pinion
2/ Internal running gear
3/ Lubrication of gears
4/ Gear tooth failures
5/ Crown wheel and pinion designs
6/ Oerlikon cycloid spiral bevel gear calculations
7/ Gearbox design – rear-engined racing cars

Lubrication and Lubricant Selection
1/ Basic Principles of Lubrication
2/ Choice of Lubricant Type
3/ Lubricating Oils
4/ Selection of Lubricating Oil
5/ Oil Supply Systems
6/ Oil Changing and Oil Conservation
7/ Greases and Anti-seizes
8/ Dry Bearings and Solid Lubrication
9/ Gas Bearings
10/ Sealing of Lubricants
11/ Lubricant Testing and Specifications
12/ Lubricant Monitoring
13/ Lubricant Handling and Storage
14/ Health and Safety

Linear Agebra Prolem Book
1/ Scalars
2/ Vectors
3/ Bases
4/ Transformations
5/ Duality
6/ Similarity
7/ Canonical Forms
8/ Inner Product Spaces
9/ Normality

Gearbox and Differential
1/ Removal Refitting
2/ Bench Disassembly
3/ Gears
4/ Assembly
5/ Central Differential Unit: Distributor
6/ Front Differential Unit: Transmission
7/ Drive Shafts
8/ Tightening Torques

Mechanical Engineering Systems
1/ Introduction: the basis of engineering
2/ Thermodynamics
3/ Fluid mechanics
4/ Dynamics
5/ Statics

Manual of Engineering Dwaring
1/ Drawing office management and organization
2/ Product development and computer aided design
3/ CAD organization and applications
4/ Principles of first and third angle orthographic projection
5/ Linework and lettering
6/ Three dimensional illustrations using isometric and oblique projection
7/ Drawing layouts and simplified methods
8/ Sections and sectional views
9/ Geometrical constructions and tangency
10/ Loci applications
11/ True lengths and auxiliary views
12/ Conic sections and interpenetration of solids
13/ Development of patterns from sheet materials
14/ Dimensioning principles
15/ Screw threads and conventional representations
16/ Nuts, bolts, screws and washers
17/ Keys and keyways
18/ Worked examples in machine drawing
19/ Limits and fits
20/ Geometrical tolerancing and datums
21/ Application of geometrical tolerances
22/ Maximum material and least material principles
23/ Positional tolerancing
24/ Cams and gears
25/ Springs
26/ Welding and welding symbols
27/ Engineering diagrams
28/ Bearings and applied technology
29/ Engineering adhesives
30/ Related standards
31/ Production drawings
32/ Drawing solutions

Lubrication and Reliability Handbook
1/ Lubricants
2/ Lubrication of components
3/ Lubrication systems
4/ Machine operation
5/ Machine maintenance
6/ Component failures
7/ Component repair
8/ Reference data

Lubricants and Lubrication
1/ Lubricants and their Market
2/ Lubricants in the Tribological System
3/ Rheology of Lubricants
4/ Base Oils
5/ Synthetic Base Oils
6/ Additives
7/ Lubricants in the Environment
8/ Disposal of Used Lubricating Oils
9/ Lubricants for Internal Combustion Engines
10/ Gear Lubrication Oils
11/ Hydraulic Oils
12/ Compressor Oils
13/ Turbine Oils
14/ Metalworking Fluids
15/ Forming Lubricants
16/ Lubricating Greases
17/ Solid Lubrication
18/ Laboratory Methods for Testing Lubricants
19/ Mechanical-Dynamic Test Methods for Lubricants

Hydrodynamic Lubrication
1/ Friction, Wear, and Lubrication
2/ Foundations of Hydrodynamic Lubrication
3/ Fundamentals of Journal Bearings
4/ Fundamentals of Thrust Bearings
5/ Stability of a Rotating Shaft – Oil Whip
6/ Foil Bearings
7/ Squeeze Film
8/ Heat Generation and Temperature Rise
9/ Turbulent Lubrication

Mechanical Engineer’s Data Handbook
1/ Strength of materials
2/ Applied mechanics
3/ Thermodyanmics and heat transfer
4/ Fluid mechanics
5/ Manufacturing technology
6/ Engineering materials
7/ Engineering measurements
8/ General data

Probability and Statistics for Engineers
A/ Probability and Random Variables
B/ Statistical Inference, Parameter Estimation, and Model Verification

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