Tuesday, December 17, 2019

Product Design - Machine Element Design - Books - Bibliography




Fundamentals of Machine Elements, Third Edition
Steven R. Schmid, Bernard J. Hamrock, Bo. O. Jacobson
CRC Press, 04-Nov-2013 - Science - 626 pages

Fundamentals of Machine Elements, Third Edition offers an in-depth understanding of both the theory and application of machine elements. Design synthesis is carefully balanced with design analysis, an approach developed through the use of case studies, worked examples, and chapter problems that address all levels of learning taxonomies. Machine design is also linked to manufacturing processes, an element missing in many textbooks.


What’s New in This Edition:

Balances synthesis and analysis with strong coverage of modern design theory
Links coverage of mechanics and materials directly to earlier courses, with expansion to advanced topics in a straightforward manner
Aids students of all levels, and includes tie-in to engineering practice through the use of case studies that highlight practical uses of machine elements
Contains questions, qualitative problems, quantitative problems, and synthesis, design, and projects to address all levels of learning taxonomies

Expands contents considerably, Topics: the importance of the heat affected zone in welding; design synthesis of spur, bevel, and worm gears; selection of multiple types of rolling element bearings (including deep groove, angular contact, toroidal, needle, and cylindrical and tapered roller) using a standard unified approach; consideration of advanced welding approaches such as brazing, friction welding and spot welding; expansion of fatigue coverage including the use of the staircase method to obtain endurance limit; and design of couplings, snap rings, wave and gas springs, and hydrostatic bearings

Provides case studies that demonstrate the real-world application of machine elements. For example, the use of rolling element bearings in windmills, powder metal gears, welds in blisks, and roller coaster brake designs are all new case studies in this edition that represent modern applications of these machine elements.

Fundamentals of Machine Elements, Third Edition can be used as a reference by practicing engineers or as a textbook for a third- or fourth-year engineering course/module. It is intended for students who have studied basic engineering sciences, including physics, engineering mechanics, and materials and manufacturing processes.

https://books.google.co.in/books?id=9n5FAQAAQBAJ


Fundamentals of Machine Elements, Third Edition can be used as a reference by practicing engineers or as a textbook for a third- or fourth-year engineering course/module. It is intended for students who have studied basic engineering sciences, including physics, engineering mechanics, and materials and manufacturing processes.

Table of Contents
Part I — Fundamentals

Introduction

What is Design?

Design of Mechanical Systems

Design as a Multidisciplinary Endeavor

Design of Machine Elements

Computers in Design

Catalogs and Vendors

Units

Unit Checks

Significant Figures

Summary

Load, Stress, and Strain

Introduction

Critical Section

Load Classification and Sign Convention

Support Reactions

Static Equilibrium

Free-Body Diagram

Supported Beams

Shear and Moment Diagrams

Stress

Stress Element

Stress Tensor

Plane Stress

Mohr’s Circle

Three-Dimensional Stresses

Octahedral Stresses

Strain

Strain Tensor

Plane Strain

Summary

Introduction to Materials and Manufacturing

Introduction

Ductile and Brittle Materials

Classification of Solid Materials

Stress-Strain Diagrams

Properties of Solid Materials

Stress-Strain Relationships

Two-Parameter Materials Charts

Effects of Manufacturing

Summary

Stresses and Strains

Introduction

Properties of Beam Cross Sections

Normal Stress and Strain

Torsion

Bending Stress and Strain

Transverse Shear Stress and Strain

Summary

Deformation

Introduction

Moment-Curvature Relation

Singularity Functions

Method of Superposition

Strain Energy

Castigliano’s Theorem

Summary

Failure Prediction for Static Loading

Introduction

Stress Concentration

Fracture Mechanics

Modes of Crack Growth

Fracture Toughness

Failure Prediction for Uniaxial Stress State

Failure Prediction for Multiaxial Stress State

Summary

Fatigue and Impact

Introduction

Fatigue

Cyclic Stresses

Strain Life Theory of Fatigue

Fatigue Strength

Fatigue Regimes

Stress Concentration Effects

The Modified Endurance Limit

Cumulative Damage

Influence of Nonzero Mean Stress

Influence of Multi-Axial Stress States

Fracture Mechanics Approach to Fatigue

Linear Impact Stresses and Deformations

Summary

Lubrication, Friction, and Wear

Introduction

Surface Parameters

Conformal and Nonconformal Surfaces

Hertzian Contact

Bearing Materials

Lubricant Rheology

Regimes of Lubrication

Friction

Wear

Summary

Part II — Machine Elements

Columns

Introduction

Equilibrium Regimes

Concentrically Loaded Columns

End Conditions

Euler’s Buckling Criterion

Johnson’s Buckling Criterion

AISC Criteria

Eccentrically Loaded Columns

Summary

Stresses and Deformations in Cylinders

Introduction

Tolerances and Fits

Pressurization Effects

Rotational Effects

Press Fits

Shrink Fits

Summary

Shafting and Associated Parts

Introduction

Design of Shafts for Static Loading

Fatigue Design of Shafts

Additional Shaft Design Considerations

Critical Speed of Rotating Shafts

Keys, Roll Pins, Splines and Set Screws

Retaining Rings and Pins

Flywheels

Couplings

Summary

Hydrodynamic and Hydrostatic Bearings

Introduction

The Reynolds Equation

Thrust Slider Bearings

Journal Slider Bearings

Squeeze Film Bearings

Hydrostatic Bearings

Summary

Rolling-Element Bearings

Introduction

Historical Overview

Bearing Types and Selection

Geometry

Kinematics

Separators

Static Load Distribution

Elastohydrodynamic Lubrication

Fatigue Life

Variable Loading

Summary

General Gear Theory; Spur Gears

Introduction

Types of Gears

Gear Geometry

Gear Ratio

Contact Ratio and Gear Velocity

Tooth Thickness and Backlash

Gear Trains

Gear Manufacture and Quality

Gear Materials

Loads Acting on a Gear Tooth

Bending Stresses in Gear Teeth

Contact Stresses in Gear Teeth

Elastohydrodynamic Film Thickness

Gear Design Synthesis

Summary

Helical, Bevel, and Worm Gears

Introduction

Helical Gears

Bevel Gears

Worm Gears

Summary

Fasteners, Connections, and Power Screws

Introduction

Thread Terminology, Classification, and Designation

Power Screws

Threaded Fasteners

Riveted Fasteners

Welded, Brazed, and Soldered Joints

Adhesive Bonding

Integrated Snap Fasteners

Summary

Springs

Introduction

Spring Materials

Helical Compression Springs

Helical Extension Springs

Helical Torsion Springs

Leaf Springs

Gas Springs

Belleville Springs

Wave Springs

Summary

Brakes and Clutches

Introduction

Thermal Considerations

Thrust Pad Clutches and Brakes

Cone Clutches and Brakes

Block or Short-Shoe Brakes

Long-Shoe, Internal, Expanding Rim Brakes

Long-Shoe, External, Contracting Rim Brakes

Symmetrically Loaded Pivot-Shoe Brakes

Band Brakes

Slip Clutches

Summary

Flexible Machine Elements

Introduction

Flat Belts

Synchronous Belts

V-Belts

Wire Ropes

Rolling Chains

Summary

Appendices

Index








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