"Applied Fracture Mechanics" ed. by Alexander Belov
InTeOpP | 2012 | ISBN: 9535108972 9789535108979 | 388 pages | PDF | 16 MB
InTeOpP | 2012 | ISBN: 9535108972 9789535108979 | 388 pages | PDF | 16 MB
This book presents a collection of articles on application of fracture mechanics methods to materials science, medicine, and engineering. The book presents mathematical and computational methods underlying the fracture mechanics applications, and also developments in statistical modeling of fatigue. This book will be useful, effective, and beneficial to mechanical engineers, civil engineers, and material scientists from industry, research, and education.
In thirteen chapters, a wide range of topics is discussed, including strength of biological tissues, safety of nuclear reactor components, fatigue effects in pipelines, environmental effects on fracture among others.
Contents
Preface
Section 1: Computational Methods of Fracture Mechanics
1 Higher Order Weight Functions in Fracture Mechanics of Multimaterials
2 Foundations of Measurement Fractal Theory for the Fracture Mechanics
3 Fractal Fracture Mechanics Applied to Materials Engineering
Section 2: Fracture of Biological Tissues
4 Fracture of Dental Materials
Section 3: Fracture Mechanics Based Models of Fatigue
5 Fracture Mechanics Based Models of Structural and Contact Fatigue
6 Fracture Mechanics Analysis of Fretting Fatigue Considering Small Crack Effects, Mixed Mode, and Mean Stress Effect
7 Good Practice for Fatigue Crack Growth Curves Description
8 Early Corrosion Fatigue Damage on Stainless Steels Exposed to Tropical Seawater: A Contribution from Sensitive Electrochemical Techniques
Section 4: Fracture Mechanics Aspectsof Power Engineering
9 Methodology for Pressurized Thermal Shock Analysis in Nuclear Power Plant
Section 5: Developments in Civil and Mechanical Engineering
10 Evaluating the Integrity of Pressure Pipelines by Fracture Mechanics
11 Fracture Analysis of Generator Fan Blades
12 Structural Reliability Improvement Using In-Service Inspection for Intergranular Stress Corrosion of Large Stainless Steel Piping
13 Interacting Cracks Analysis Using Finite Element Method
with TOC BookMarkLinks