Probabilistic Methods in the Mechanics of Solids and Structures

1. Extreme Value Theory.- Applications of Extreme Value Theory to Problems of Material Behavior.- A Matrix-Valued Weibull Distribution.- Extreme Value Statistics Compatible with Random Field Theory.- Some Problems of Estimation for Mixed-Weibull Populations which Arise in Fatigue or Strength Models.- Extreme Value Theory in Endurance Testing of Ball and Roller Bearings.- The Use of Slepian Model Processes in Crossing and Extreme Value Theory.- Plastic Movements of Linear Elastic-Ideal Plastic Oscillator Subject to Gaussian Process Excitation.- Generalized Hermite Polynomials and the Spectrum of Nonlinear Random Vibration.- Weibull Distributions and Large Earthquake Modelling.- 2. Fatigue Crack Growth.- Analysis of Stochastic Equation Models of Crack Growth.- Stochastic Modeling of Fatigue Crack Propagation.- Stochastic Modelling of Fatigue Crack Growth.- Probabilistic Crack Propagation Using Cycle-by-Cycle Technique.- Fatigue Life Distribution for Structures with Interacting Failures.- A Consistent Reliability Concept Utilizing Fracture Mechanics.- Fatigue Crack Propagation under Random Loading.- Correlation between Micro Fracture Process and Fatigue Crack Propagation.- 3. Probabilistic Failure Models.- Sets of Multiple Cracks in Solids with Application to the Fatigue Life and Reliability Prediction.- Stochastic Approach to Statistical Aspects of Failure.- Fatigue Life and Reliability Estimation of Mineral-Oil Pipe Lines.- Assessment of Surface Strength and Bulk Strength of a Typical Brittle Material.- The "Weakest Link" Concept after Proof Testing.- Brittle Material Design Using Three Parameter Weibull Distributions.- Ring-on-Ring Tests and the Modeling of Cladding Glass Strength by the Weibull Distribution.- Probabilistic Analysis of Plastic Plates.- Lower BoundReliability Analysis of Plastic Structures.- Probabilistic Models for Composites: Are there Flaws in the Theory?.- Failure Statistics of Unidirectional Long-Fiber Composites.- Stochastic Approach to Study the Fracture and Fatigue of Concrete.- The Statistical Theory of Brittle Fracture Applied on Concrete.- 4. Probabilistic Fracture Mechanics.- Calculating PWR Pressure Vessel Failure Frequencies.- Probabilistic Assessment of Structures with Weld Defects.- Probability of Fracture in the Main Coolant Pipe of a Pressurized Water Reactor.- Statistical Modeling of Shift in the Reference Temperature of Pressure Vessel Welds.- 5. Reliability Analysis.- Combining Component and System Information in System Reliability Calculation.- Recent Developments in Multistate Reliability Theory.- Bayesian Fatigue Life Prediction.- Closed Form Solutions for Cost Optimized Reliability.- Dynamic Updating of Cumulative Damage Models for Reliability and Maintenance Based upon Service Information.- 6. Structural Response to Random Loads.- Random Vibration of Inelastic Structures.- Response of Simple Oscillators to Student's t Excitations.- Multi-Failure Mode Systems under Time-Variant Loading.- Random Vibration of a Structure via Classical and Nonclassical Theories.- Reliability Assessment for Non-Linear Random Frames.- On Reliability and Strength of Structural Components against Seismic Excitation.- Random Vibration and Response Spectrum Approaches in Seismic Structural Designs.- Effect of a Damper on the Wind-Induced Oscillations of a Tall Mast.- Reduction of Wind-Induced Random Vibrations by Use of an Optimal Dynamic Absorber.- Failure Probability and Parameter Estimation for Structures with Weibull-Distributed Strength.- 7. Structures: Design Philosophy, Codes and Applications.-Reliability Approach to Structural Safety and Safety Criteria.- Fatigue Reliability of Structural Components under Scheduled Inspection and Repair Maintenance.- Reliability Analysis of Landing Gear Fatigue Life.- The Importance Factor - A Set of Problems.- Criteria for the Selection of Load Combination Factors.- Data Pooling Analysis Based on Fatigue Reliability Data-Base.