Advances in Fatigue Lifetime Predictive Techniques, Second Volume, Volume 2Michael R. Mitchell, Ronald W. Landgraf |
Contents
Overview | 1 |
Use of Mechanistic Life Prediction Methods for the Design of DamageTolerant Composite Material Systems | 3 |
Contribution of Individual Spectrum Load Cycles to Damage in Notch Root Crack Initiation Short and Long Crack Growth | 19 |
Calculation of Spectrum Load Notch Root Crack Growth Rate Under Elastic and Inelastic Conditions | 30 |
Fatigue Damage Due to SubThreshold Load Cycles Between Periodic Overloads | 45 |
Exact Determination of ΔKeff and Crack Propagation Prediction for Selected Loading Sequences | 54 |
FEM Analysis of Cyclic Deformation Around the Fatigue Crack Tip After a Single Overload | 72 |
A Creep Cavity Growth Model for CreepFatigue Life Prediction of a Unidirectional WCu Composite | 91 |
Crack Density and Fatigue Lifetime of Metals Under Variable Amplitude Loading | 132 |
Determination of Fatigue Limit Between 10 5 and 10 9 Cycles Using an Ultrasonic Fatigue Device | 141 |
Novel Methodology for Fatigue Lifetime Prediction | 153 |
Estimation of Fatigue Propagation Life in Resistance Spot Welds | 169 |
A Reverse Plasticity Criterion for Specifying Optimal Proof Load Levels | 186 |
Fatigue Lifetime Prediction of AnglePlied FiberReinforced Elastomer Composites as Pneumatic Tire Materials | 203 |
Problems with Current Methodology in Using the Arrhenius Equation to Predict the LongTerm Behavior of Polymeric Materials in Geotechnical Env... | 236 |
| 248 | |
ThermalMechanical Fatigue Lifetime Prediction of an Austenitic Stainless Steel | 105 |
The Cumulative Fatigue Damage Behavior of MARM 247 in Air and HighPressure Hydrogen | 117 |
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Common terms and phrases
aircraft tire carcass alloy analysis Arrhenius equation ASTM International ASTM STP behavior calculated cavity growth composite material cord-reinforced elastomer composites crack closure crack density crack growth rate crack initiation crack length crack opening stress crack propagation crack tip cumulative damage cyclic loading cyclic stress da/dN debonding deformation delamination determined effect elastic elastic modulus element model equation experimental FALSTAFF Fatigue Crack Fatigue Crack Growth fatigue damage Fatigue Lifetime Predictive fatigue loading fatigue tests finite element Fracture Mechanics frequency increase load sequence loading cycles loading ramp rates minor cycles modulus notch root crack number of cycles overload parameters plastic strain R-ratio rate expression ratio residual stress S-N curves shown in Fig Society for Testing specimen spectrum load spot weld steel strain energy density strength stress amplitude stress intensity stress range stress-strain curve temperature tensile Testing and Materials thermal-mechanical fatigue ultrasonic values viscoelastic yield strength
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