| Record ID | ia:mechanicalbehavi0000dowl_c6y7 |
| Source | Internet Archive |
| Download MARC XML | https://archive.org/download/mechanicalbehavi0000dowl_c6y7/mechanicalbehavi0000dowl_c6y7_marc.xml |
| Download MARC binary | https://www.archive.org/download/mechanicalbehavi0000dowl_c6y7/mechanicalbehavi0000dowl_c6y7_meta.mrc |
LEADER: 07099cam 2200733 a 4500
001 ocm25747496
003 OCoLC
005 20220801194726.0
008 920408s1993 njua b 001 0 eng
010 $a 92014544
040 $aDLC$beng$cDLC$dUKM$dNLGGC$dBTCTA$dYDXCP$dZWZ$dHEBIS$dDEBBG$dTULIB$dGBVCP$dOCLCF$dVGM$dOCLCQ$dDHA$dOCLCO
015 $aGB9481068$2bnb
016 7 $a013-57904$2Uk
019 $a1191436089
020 $a0135790468
020 $a9780135790465
020 $a0130269565
020 $a9780130269560
035 $a(OCoLC)25747496$z(OCoLC)1191436089
050 00 $aTA404.8$b.D68 1993
082 00 $a620.1/1292$220
084 $a33.99$2bcl
084 $aMTA 020f$2stub
084 $aUQ 8025$2rvk
084 $aZM 3200$2rvk
084 $a51.32$2bcl
084 $a539.38
100 1 $aDowling, Norman E.
245 10 $aMechanical behavior of materials :$bengineering methods for deformation, fracture, and fatigue /$cNorman E. Dowling.
260 $aEnglewood Cliffs, N.J. :$bPrentice Hall,$c©1993.
300 $axxiv, 773 pages :$billustrations ;$c25 cm
336 $atext$btxt$2rdacontent
337 $aunmediated$bn$2rdamedia
338 $avolume$bnc$2rdacarrier
504 $aIncludes bibliographical references (pages 752-761) and index.
505 2 $a1. Introduction -- 1.2. Types of Material Failure -- 1.3. Design and Materials Selection -- 1.4. Technological Challenge -- 1.5. Economic Importance of Fracture -- 2. Structure and Deformation in Materials -- 2.2. Bonding in Solids -- 2.3. Structure in Crystalline Materials -- 2.4. Elastic Deformation and Theoretical Strength -- 2.5. Inelastic Deformation -- 3. A Survey of Engineering Materials -- 3.2. Alloying and Processing of Metals -- 3.3. Irons and Steels -- 3.4. Nonferrous Metals -- 3.5. Polymers -- 3.6. Ceramics and Glasses -- 3.7. Composite Materials -- 4. Stress-Strain Equations and Models -- 4.2. Rheological Models -- 4.3. Elastic Deformation -- 4.4. Plastic Deformation -- 4.5. Creep Deformation -- 4.6. Anisotropic Materials -- 5. Mechanical Testing: Tension Test and Other Basic Tests -- 5.2. Introduction to Tension Test -- 5.3. Engineering Stress-Strain Properties -- 5.4. Trends in Tensile Behavior -- 5.5. True Stress-Strain Interpretation of Tension Test -- 5.6. Compression Test -- 5.7. Hardness Tests -- 5.8. Notch-Impact Tests -- 5.9. Bending and Torsion Tests -- 6. Review of Complex and Principal States of Stress and Strain -- 6.2. Plane Stress -- 6.3. Three-Dimensional States of Stress -- 6.4. Plane Stress Reconsidered as a Three-Dimensional Case -- 6.5. Stresses on the Octahedral Planes -- 6.6. Complex States of Strain -- 7. Yielding and Fracture under Combined Stresses -- 7.2. General Form of Failure Criteria -- 7.3. Maximum Normal Stress Fracture Criterion -- 7.4. Maximum Shear Stress Yield Criterion -- 7.5. Octahedral Shear Stress Yield Criterion -- 7.6. Discussion and Comparison of the Basic Failure Criteria -- 7.7. Coulomb-Mohr Fracture Criterion -- 7.8. Modified Mohr Fracture Criterion -- 7.9. Additional Comments on Failure Criteria -- 8. Fracture of Cracked Members -- 8.2. Preliminary Discussion -- 8.3. Mathematical Concepts -- 8.4. Application of K to Design and Analysis -- 8.5. Fracture Toughness Values and Trends -- 8.6. Plastic Zone Size, and Plasticity Limitations on LEFM -- 8.7. Discussion of Fracture Toughness Testing -- 8.8. Extensions of Fracture Mechanics Beyond Linear Elasticity -- 9. Fatigue of Materials: Introduction and Stress-Based Approach -- 9.2. Definitions and Concepts -- 9.3. Sources of Cyclic Loading -- 9.4. Fatigue Testing -- 9.5. The Physical Nature of Fatigue Damage -- 9.6. Trends in S-N Curves -- 9.7. Mean Stresses -- 9.8. Multiaxial Stresses -- 9.9. Variable Amplitude Loading -- 10. Stress-Based Approach to Fatigue: Notched Members -- 10.2. Causes of the k[subscript f] <k[subscript t] Effect -- 10.3. Notch Sensitivity and Empirical Estimates of k[subscript f] -- 10.4. Notch Effects at Intermediate and Short Lives -- 10.5. Combined Effects of Notches and Mean Stress -- 10.6. Estimating Long Life Fatigue Strengths (Fatigue Limits) -- 10.7. Estimating S-N Curves -- 10.8. Designing to Avoid Fatigue Failure -- 11. Fatigue Crack Growth -- 11.2. Preliminary Discussion -- 11.3. Fatigue Crack Growth Rate Testing -- 11.4. Effects of R = S[subscript min]/S[subscript max] on Fatigue Crack Growth -- 11.5. Trends in Fatigue Crack Growth Behavior -- 11.6. Life Estimates for Constant Amplitude Loading -- 11.7. Life Estimates for Variable Amplitude Loading -- 11.8. Design Considerations -- 11.9. Plasticity Aspects and Limitations of LEFM for Fatigue Crack Growth -- 11.10. Environmental Crack Growth -- 12. Plastic Deformation Behavior and Models for Materials -- 12.2. Stress-Strain Curves -- 12.3. Three-Dimensional Stress-Strain Relationships -- 12.4. Unloading and Cyclic Loading Behavior from Rheological Models -- 12.5. Cyclic Loading Behavior of Real Materials -- 13. Stress-Strain Analysis of Plastically Deforming Members -- 13.2. Plasticity in Bending -- 13.3. Residual Stresses and Strains for Bending -- 13.4. Plasticity of Circular Shafts in Torsion -- 13.5. Notched Members -- 13.6. Cyclic Loading -- 14. Strain-Based Approach to Fatigue -- 14.2. Strain Versus Life Curves -- 14.3. Mean Stress Effects -- 14.4. Multiaxial Stress Effects -- 14.5. Life Estimates for Structural Components -- 14.6. Discussion -- 15. Time-Dependent Behavior: Creep and Damping -- 15.2. Creep Testing -- 15.3. Physical Mechanisms of Creep -- 15.4. Time-Temperature Parameters and Life Estimates -- 15.5. Creep Failure under Varying Stress -- 15.6. Stress-Strain-Time Relationships -- 15.7. Creep Deformation under Varying Stress -- 15.8. Creep under Multiaxial Stress -- 15.9. Component Stress-Strain Analysis -- 15.10. Energy Dissipation (Damping) in Materials.
650 0 $aMaterials.
650 0 $aMaterials$xTesting.
650 6 $aMatériaux.
650 6 $aMatériaux$xEssais.
650 7 $aMaterials.$2fast$0(OCoLC)fst01011772
650 7 $aMaterials$xTesting.$2fast$0(OCoLC)fst01011882
650 7 $aMechanische Eigenschaft$2gnd
650 7 $aWerkstoff$2gnd
650 7 $aMatériaux$xEssais.$2ram
650 7 $aRésistance des matériaux.$2ram
650 7 $aDéformations (mécanique)$2ram
650 7 $aRupture, Mécanique de la.$2ram
653 0 $aMaterials$aMechanical processes
776 08 $iOnline version:$aDowling, Norman E.$tMechanical behavior of materials.$dEnglewood Cliffs, N.J. : Prentice Hall, ©1993$w(OCoLC)622551566
856 41 $3Table of contents$uhttp://www.gbv.de/dms/bowker/toc/9780135790465.pdf
938 $aBaker and Taylor$bBTCP$n92014544
938 $aYBP Library Services$bYANK$n100035586
029 1 $aAU@$b000009008220
029 1 $aDEBBG$bBV009619644
029 1 $aGBVCP$b153105305
029 1 $aHEBIS$b046255591
029 1 $aHEBIS$b215922166
029 1 $aNLGGC$b106053949
029 1 $aNZ1$b4394892
029 1 $aYDXCP$b74501
029 1 $aZWZ$b023271922
994 $aZ0$bIME
948 $hNO HOLDINGS IN IME - 205 OTHER HOLDINGS