Description
Peterson’s Stress Concentration Factors 4th Edition by Walter D. Pilkey, ISBN-13: 978-1119532514
[PDF eBook eTextbook] – Available Instantly
- Publisher : Wiley
- Publication date : February 11, 2020
- Edition : 4th
- Language : English
- 640 pages
- ISBN-10 : 1119532515
- ISBN-13 : 978-1119532514
NOTE: This book is a standalone book and will not include any access codes.
The bible of stress concentration factors―updated to reflect today’s advances in stress analysis.
Table of Contents:
COVER
INDEX TO THE STRESS CONCENTRATION FACTORS
PREFACE FOR THE FOURTH EDITION
REFERENCES
PREFACE FOR THE THIRD EDITION
PREFACE FOR THE SECOND EDITION
NOTE
CHAPTER 1: FUNDAMENTALS OF STRESS ANALYSIS
1.1 STRESS ANALYSIS IN PRODUCT DESIGN
1.2 SOLID OBJECTS UNDER LOADS
1.3 TYPES OF MATERIALS
1.4 MATERIALS PROPERTIES AND TESTING
1.5 STATIC AND FATIGUE FAILURES
1.6 UNCERTAINTIES, SAFETY FACTORS, AND PROBABILITIES
1.7 STRESS ANALYSIS OF MECHANICAL STRUCTURES
1.8 FAILURE CRITERIA OF MATERIALS
1.9 STRESS CONCENTRATION
1.10 STRESS CONCENTRATION AS A TWO-DIMENSIONAL PROBLEM
1.11 STRESS CONCENTRATION AS A THREE-DIMENSIONAL PROBLEM
1.12 PLANE AND AXISYMMETRIC PROBLEMS
1.13 LOCAL AND NONLOCAL STRESS CONCENTRATION
1.14 MULTIPLE STRESS CONCENTRATION
1.15 PRINCIPLE OF SUPERPOSITION FOR COMBINED LOADS
1.16 NOTCH SENSITIVITY
1.17 DESIGN RELATIONS FOR STATIC STRESS
1.18 DESIGN RELATIONS FOR ALTERNATING STRESS
1.19 DESIGN RELATIONS FOR COMBINED ALTERNATING AND STATIC STRESSES
1.20 LIMITED NUMBER OF CYCLES OF ALTERNATING STRESS
1.21 STRESS CONCENTRATION FACTORS AND STRESS INTENSITY FACTORS
1.22 SELECTION OF SAFETY FACTORS
REFERENCES
NOTES
CHAPTER 2: NOTCHES AND GROOVES
2.1 NOTATION
2.2 STRESS CONCENTRATION FACTORS
2.3 NOTCHES IN TENSION
2.4 DEPRESSIONS IN TENSION
2.5 GROOVES IN TENSION
2.6 BENDING OF THIN BEAMS WITH NOTCHES
2.7 BENDING OF PLATES WITH NOTCHES
2.8 BENDING OF SOLIDS WITH GROOVES
2.9 DIRECT SHEAR AND TORSION
2.10 TEST SPECIMEN DESIGN FOR MAXIMUM KT FOR A GIVEN R/D OR R/H
REFERENCES
NOTES
CHAPTER 3: SHOULDER FILLETS
3.1 NOTATION
3.2 STRESS CONCENTRATION FACTORS
3.3 TENSION (AXIAL LOADING)
3.4 BENDING
3.5 TORSION
3.6 METHODS OF REDUCING STRESS CONCENTRATION AT A SHOULDER
REFERENCES
CHAPTER 4: HOLES
4.1 NOTATION
4.2 STRESS CONCENTRATION FACTORS
4.3 CIRCULAR HOLES WITH IN-PLANE STRESSES
4.4 ELLIPTICAL HOLES IN TENSION
4.5 VARIOUS CONFIGURATIONS WITH IN-PLANE STRESSES
4.6 HOLES IN THICK ELEMENTS
4.7 ORTHOTROPIC THIN MEMBERS
4.8 BENDING
4.9 SHEAR AND TORSION
REFERENCES
NOTE
CHAPTER 5: MISCELLANEOUS DESIGN ELEMENTS
5.1 NOTATION
5.2 SHAFT WITH KEYSEAT
5.3 SPLINED SHAFT IN TORSION
5.4 GEAR TEETH
5.5 PRESS- OR SHRINK-FITTED MEMBERS
5.6 BOLT AND NUT
5.7 BOLT HEAD, TURBINE-BLADE, OR COMPRESSOR-BLADE FASTENING (T-HEAD)
5.8 LUG JOINT
5.9 CURVED BAR
5.10 HELICAL SPRING
5.11 CRANKSHAFT
5.12 CRANE HOOK
5.13 U-SHAPED MEMBER
5.14 ANGLE AND BOX SECTIONS
5.15 CYLINDRICAL PRESSURE VESSEL WITH TORISPHERICAL ENDS
5.16 WELDS
5.17 PARTS WITH INHOMOGENEOUS MATERIALS OR COMPOSITES
5.18 PARTS WITH DEFECTS
5.19 PARTS WITH THREADS
5.20 FRAME STIFFENERS
5.21 DISCONTINUITIES WITH ADDITIONAL CONSIDERATIONS
5.22 PHARMACEUTICAL TABLETS WITH HOLES
5.23 PARTS WITH RESIDUAL STRESSES
5.24 SURFACE ROUGHNESS
5.25 NEW APPROACHES FOR PARAMETRIC STUDIES
REFERENCES
CHAPTER 6: FINITE ELEMENT ANALYSIS (FEA) FOR STRESS ANALYSIS
6.1 STRUCTURAL ANALYSIS PROBLEMS
6.2 TYPES OF ENGINEERING ANALYSIS METHODS
6.3 STRUCTURAL ANALYSIS THEORY
6.4 FINITE ELEMENT ANLAYSIS (FEA) FOR STRUCTURAL ANALYSIS
6.5 PLANNING V&V IN FEA MODELING
6.6 FINITE ELEMENT ANALYSIS FOR VERIFICATION OF STRUCTURAL ANALYSIS
6.7 FEA FOR STRESS ANALYSIS OF ASSEMBLY MODELS
6.8 PARAMETRIC STUDY FOR STRESS ANALYSIS
6.9 FEA ON STUDY OF STRESS CONCENTRATION FACTORS
REFERENCES
INDEX
What makes us different?
• Instant Download
• Always Competitive Pricing
• 100% Privacy
• FREE Sample Available
• 24-7 LIVE Customer Support
