Machine Elements in Mechanical Design 6th edition by Robert Mott, Edward Vavrek, Jyhwen Wan 9780134451947 0134451945

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ISBN 10: 0134451945
ISBN 13: 9780134451947 
Author: Robert L. Mott; Edward M. Vavrek; Jyhwen Wan

This is the eBook of the printed book and may not include any media, website access codes, or print supplements that may come packaged with the bound book. The concepts, procedures, data, and analysis techniques needed to design and integrate machine elements into mechanical devices and systems. For over three decades students and practicing engineers have used Machine Elements in Mechanical Design to learn about the principles and practices of mechanical design. They have either continued to use the text in their careers, or have newly discovered it as an invaluable resource in their work. With an emphasis on applying the technology of various machine elements while considering those elements in the context of the larger machine, this text references a broad array of available resources, from industrial sources to professional organizations. It promotes practical decision making in design and provides excellent preparation for moving from an academic environment to a professional position with strong, long-term growth potential.   Continuing the book’s emphasis on proven approaches and the use of readily available materials, and its focus on practical, safe, and efficient design, this edition includes new content and adjustments contributed by the two new coauthors and features stronger technical content in stress analysis, a wider set of technical topics, and beautiful enhancements to the visual attractiveness of the book throughout numerous new full-color graphic illustrations.   Appreciated for its readability, while recognized for its technical strength and comprehensive coverage of the material, Machine Elements in Mechanical Design is the ideal guide to the skills and knowledge needed for success in this field. 

Machine Elements in Mechanical Design 6th Table of contents:

MECHANICAL DESIGN SOFTWARE
FEATURES OF THE SIXTH EDITION
INTRODUCING TWO NEW CO-AUTHORS:

PART ONE PRINCIPLES OF DESIGN AND STRESS ANALYSIS
CHAPTER ONE THE NATURE OF MECHANICAL DESIGN
1–1 OBJECTIVES OF THIS CHAPTER
1–2 THE DESIGN PROCESS
1–3 SKILLS NEEDED IN MECHANICAL DESIGN
1–4 FUNCTIONS, DESIGN REQUIREMENTS, AND EVALUATION CRITERIA
Example of Functions, Design Requirements, and Evaluation Criteria
1–5 EXAMPLE OF THE INTEGRATION OF MACHINE ELEMENTS INTO A MECHANICAL DESIGN
Gears
Shafts
Bearings
Keys
Housing
1–6 COMPUTATIONAL AIDS
1–7 DESIGN CALCULATIONS
1–8 PREFERRED BASIC SIZES, SCREW THREADS, AND STANDARD SHAPES
Preferred Basic Sizes
American Standard Screw Threads
Metric Screw Threads
Commercially Available Shapes for Load-Carrying Members
Structural Shapes—Designations
Angles (L-Shapes)
Channels (C-Shapes)
I-Beam Shapes
Wide-Flange Shapes (W-Shapes)
American Standard Beams (S-Shapes)
Aluminum Association I-Beam Shapes
Other I-Beam Shapes
Hollow Tubing (Square and Rectangular)
Pipe and Hollow Circular Tubing
1–9 UNIT SYSTEMS
Solution
Solution
1–10 DISTINCTION AMONG WEIGHT, FORCE, AND MASS
REFERENCES
INTERNET SITES FOR GENERAL MECHANICAL DESIGN
INTERNET SITES FOR INNOVATION AND MANAGING COMPLEX DESIGN PROJECTS
PROBLEMS
Functions and Design Requirements
Units and Conversions

CHAPTER TWO MATERIALS IN MECHANICAL DESIGN
2–1 OBJECTIVES OF THIS CHAPTER
2–2 PROPERTIES OF MATERIALS
Tensile Strength, Su
Yield Strength, Sy
Proportional Limit
Elastic Limit
Modulus of Elasticity in Tension, E
Ductility and Percent Elongation
Shear Strength, Sys and Sus
Poisson’s Ratio, ν
Modulus of Elasticity in Shear, G
Non-Destructive Measurement of Elastic Modulus and Poisson’s Ratio
Flexural Strength and Flexural Modulus
Hardness
Wear in Mechanical Devices
Machinability
Toughness, Impact Energy
Fatigue Strength or Endurance Strength
Creep
Solution
Results
Stress:
Elongation:
Creep:
Comment
Relaxation
Physical Properties
Density
Coefficient of Thermal Expansion
Thermal Conductivity
Electrical Resistivity
2–3 CLASSIFICATION OF METALS AND ALLOYS
Recent Developments in Steel Designations
Aerospace Materials System (AMS)
Material Property Data Used in This Book
Appendices
Metals Used for Commercially Available Shapes
Steel and Aluminum Designations from Different Parts of the World
2–4 VARIABILITY OF MATERIAL PROPERTIES DATA
2–5 CARBON AND ALLOY STEEL
Designation Systems
The New UNS Designations for G, H, and K Steels
Alloy Groups
AHSS—Advanced High-Strength Steels
2–6 CONDITIONS FOR STEELS AND HEAT TREATMENT
Heat Treating
Annealing
Normalizing
Through-Hardening and Quenching and Tempering
Case Hardening
Cautions for Heat-Treating Operations
Shot Peening for Favorable Residual Stresses
Steel Alloys for Castings
2–7 STAINLESS STEELS
2–8 STRUCTURAL STEEL
2–9 TOOL STEELS
2–10 CAST IRON
2–11 POWDERED METALS
2–12 ALUMINUM
Aluminum Casting Alloys
Aluminum Forging Alloys
2–13 ZINC ALLOYS AND MAGNESIUM
Zinc Alloys
Magnesium Alloys
2–14 NICKEL-BASED ALLOYS AND TITANIUM
Nickel-Based Alloys
Titanium Alloys
2–15 COPPER, BRASS, AND BRONZE
Conditions for Copper Alloys
2–16 PLASTICS
Thermoplastics
Thermosets
Special Considerations for Selecting Plastics
2–17 COMPOSITE MATERIALS
Examples of Finished Products Made from Composite Materials
Classifications of Composite Materials by Matrix
Polymer Matrix Composites (PMC)
Metal Matrix Composites (MMC)
Ceramic Matrix Composites (CMC)
Forms of Reinforcement Materials
Types of Reinforcement Materials
Processing of Composites
Selection of Composite Materials
Advantages of Composites
Limitations of Composites
Laminated Composite Construction
Laminate Orientation Code
Predicting Composite Properties
Solution
Objective
Given
Analysis and Results
Summary of Results
Comment
Design Guidelines for Members Made from Composites
Nanotechnology Applications in Materials
2–18 MATERIALS SELECTION
Decision Analysis Process
Other Considerations for Materials Selection
REFERENCES
INTERNET SITES RELATED TO DESIGN PROPERTIES OF MATERIALS
PROBLEMS
SUPPLEMENTARY PROBLEMS
INTERNET-BASED ASSIGNMENTS

CHAPTER THREE STRESS AND DEFORMATION ANALYSIS
3–1 OBJECTIVES OF THIS CHAPTER
3–2 PHILOSOPHY OF A SAFE DESIGN
3–3 REPRESENTING STRESSES ON A STRESS ELEMENT
Sign Convention for Shear Stresses
3–4 NORMAL STRESSES DUE TO DIRECT AXIAL LOAD
Solution
Objective
Given
Analysis
Results
Comment
Solution
Objective
Given
Analysis
Results
3–5 DEFORMATION UNDER DIRECT AXIAL LOAD
3–6 SHEAR STRESS

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