Advances in understanding the fatigue behavior of materials : special topic volume with invited papers only

This special-topic book consists of a collection of technical papers assembled under the rubric of "Advances in Understanding the Fatigue Behavior of Materials". The focus of "Fatigue Behavior of Materials" centers on the changes in properties that occur upon applying cyclic loads. Following its recognition and increasing importance during the latter half of the nineteenth century, this branch of study has focused upon the study and rationalization of the engineering approaches that are commonly used to design against the initiation and/or propagation of the fatigue damage which would otherwise culminate in catastrophic failure.

Henning AgerskovI. Alvarez-Armas; Suzanne DegallaixHerwig Mayer; Snezana Stojanovic; Stefanie Stanzl-Tschegg; Bernhard ZettlThomas Niendorf; Hans J. Maier; Demircan Canadinc; Ibrahim KaramanO.P. Ostash; I.M. AndreikoKazuaki Shiozawa; Lian Tao LuVincent Velay; Denis Delagnes; Gérard BernhartJean Bernard VogtMatteo BenedettiYoshiharu Mutoh; M. Shahnewaz Bhuiyan; Zainuddin SajuriRichard W. NeuThirumany Sritharan; T. Saraswati; S. MhaisalkarT.S. Srivatsan; Satish Vasudevan; Lisa Park; R.J. LederichT.S. Srivatsan; Satish Vasudevan; Lisa Park; R.J. LederichJacques StolarzDu Yi Ye; Jinyang ZhengT.S. Srivatsan; Mithun Kuruvilla; Lisa ParkS.K. Bhaumik; C.N. Saikrishna; K.V. Ramaiah; M.A. VenkataswamyYoshikazu Nakai; Makoto SekiG.Y. Wang; Peter K. Liaw; Yoshihiko Yokoyama; A. Peker; M. Freels; D.E. Fielden; A. InoueAndrea Carpinteri; Sabrina VantadoriAndrea Carpinteri; Andrea Spagnoli; Sabrina VantadoriGeorge C. Kaschner; Jeffrey C. GibelingNathan Klingbeil; Jeremy Daily; Craig Baudendistel

The Fatigue Behavior of Steel Structures under Random Loading	p. 3
Low Cycle Fatigue Behavior and Microcracks Nucleation on Duplex Stainless Steels	p. 17
High Cycle Fatigue Behavior of Normalized 0.15% C Steel under Tension-Compression and Torsion Loading	p. 29
On the Cyclic Stability and Fatigue Performance of Ultrafine-Grained Interstitial-Free Steel under Mean Stress	p. 39
Fatigue Crack Growth Resistance of Special Nodular Cast Irons	p. 53
Internal Fatigue Failure Mechanism of High Strength Steels in Gigacycle Regime	p. 65
Advances in Cyclic Behavior and Lifetime Modeling of Tempered Martensitic Steels Based on Microstructural Considerations	p. 81
The Fatigue Properties of Duplex Stainless Steels: Role of Microstructure	p. 101
Comparison of the Fatigue Crack Propagation Resistance of #945;+#946; and #946; Titanium Alloys	p. 117
High Cycle Fatigue Behavior of Magnesium Alloys under Corrosive Environment	p. 131
The Fretting Fatigue Behavior of Ti-6Al-4V	p. 147
Cyclic Depth-Sensing Indentation of Gold Wire	p. 163
The High Cycle Fatigue and Fracture Behavior of Friction Stir Welded Aluminum Alloy 2024	p. 175
An Investigation of the High Cycle Fatigue and Final Fracture Behavior of Aluminum Alloy 2219	p. 207
Low Cycle Fatigue in Model Al-Si Alloys. A Contribution to the Understanding of Cyclic Damage in Two Phase Materials	p. 231
High Temperature Low-Cycle Fatigue, Deformation Microstructure and Final Fracture Behavior of a Nickel-Base Superalloy	p. 249
An Investigation of the Cyclic Fatigue and Final Fracture Behavior of a Titanium Alloy	p. 271
Understanding the Fatigue Behaviour of NiTiCu Shape Memory Alloy Wire Thermal Actuators	p. 301
Mechanisms and Mechanics of Fatigue Crack Propagation in Zr-Based Bulk Metallic Glass	p. 317
Direct Comparisons of the Fatigue Behavior of Bulk-Metallic Glasses and Crystalline Alloys	p. 329
Surface Cracks in Round Bars under Cyclic Tension or Bending	p. 341
Some Applications of Fractal Fracture Mechanics to Describe the Fatigue Behaviour of Materials	p. 355
A Study of Fatigue (Cyclic Deformation) Behavior in FCC Metals Using Strain Rate Change Tests	p. 371
A Dissipated Energy Approach to Fatigue Crack Growth in Ductile Solids and Layered Materials	p. 385

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