Wang | Advances in Very High Cycle Fatigue | Sonstiges | 978-3-03859-364-5 | sack.de

Sonstiges, Englisch, Band Volume 664, 352 Seiten, Format (B × H): 125 mm x 142 mm, Gewicht: 200 g

Reihe: Key Engineering Materials

Wang

Advances in Very High Cycle Fatigue

Collection of selected, peer reviewed papers from the 6th International Conference On Very High Cycle Fatigue (VHCF), October 15-18, 2014, Chengdu, China.The 34 papers are grouped as follows:Chapter 1: Scientometric Researches in area of Very High Cycle Fatigue;Chapter 2: Advancements in Very High Cycle Fatigue Instrumentations;Chapter 3: Advanced Materials on Very High Cycle Fatigue;Chapter 4: Influence of Environment and Temperature;Chapter 5: Influence of Small Damages Conditions;Chapter 6: Microstructure and Initiation Mechanism;Chapter 7: Life Prediction and Modeling
Erscheinungsjahr 2016
ISBN: 978-3-03859-364-5
Verlag: Trans Tech Publications

Collection of selected, peer reviewed papers from the 6th International Conference On Very High Cycle Fatigue (VHCF), October 15-18, 2014, Chengdu, China.The 34 papers are grouped as follows:Chapter 1: Scientometric Researches in area of Very High Cycle Fatigue;Chapter 2: Advancements in Very High Cycle Fatigue Instrumentations;Chapter 3: Advanced Materials on Very High Cycle Fatigue;Chapter 4: Influence of Environment and Temperature;Chapter 5: Influence of Small Damages Conditions;Chapter 6: Microstructure and Initiation Mechanism;Chapter 7: Life Prediction and Modeling

Sonstiges, Englisch, Band Volume 664, 352 Seiten, Format (B × H): 125 mm x 142 mm, Gewicht: 200 g

Reihe: Key Engineering Materials

ISBN: 978-3-03859-364-5
Verlag: Trans Tech Publications


Collection of selected, peer reviewed papers from the 6th International Conference On Very High Cycle Fatigue (VHCF), October 15-18, 2014, Chengdu, China.
The 34 papers are grouped as follows:

Chapter 1: Scientometric Researches in area of Very High Cycle Fatigue;
Chapter 2: Advancements in Very High Cycle Fatigue Instrumentations;
Chapter 3: Advanced Materials on Very High Cycle Fatigue;
Chapter 4: Influence of Environment and Temperature;
Chapter 5: Influence of Small Damages Conditions;
Chapter 6: Microstructure and Initiation Mechanism;
Chapter 7: Life Prediction and Modeling
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Autoren/Hrsg.


Weitere Infos & Material


The most Influential Articles in Very High Cycle FatigueConstruction of Electronic Factual Database on Very High Cycle Fatigue Properties for Structural Metallic MaterialsThe Top 10 Influential Articles in Very High Cycle FatigueEnergy Dissipation in Very High Cycle Fatigue for Polycrystalline Pure Copper and Armco IronThree Point Bending Fatigue of Carbon Fiber Fabric Reinforced Polyphenylensulfide in the Very High Cycle Fatigue RegimeThermal Dissipation Calculation in Very High Cycle FatigueOn the Research and Application of Ultrasonic Fatigue Testing TechnologyVery High Cycle Fatigue and Damage Behavior of Ti6Al4VEffect of Shot Peening on the Long Life Fatigue Properties of Ti6Al4V with Different Heat TreatmentStudy on Very-High-Cycle-Fatigue Property of Aero-Engine Blades Based on Subcomponent SpecimenUltra-High Cycle Fatigue Behavior of DZ125 Superalloy Used in Turbine BladesStudy on the Fatigue Properties of the TIG Weld Joint with the Stainless Steel Conduit in AircraftEffects of Stress Concentration on Fibre Reinforced CompositesEvaluation of Very High Cycle Fatigue Properties of Low Temperature Nitrided Ti-6Al-4V Alloy Using Ultrasonic Testing TechnologyEffect of Temperature and Loading Frequency on the Fatigue Behavior of Ti-17VHCF Strength of Helical Compression Springs - Influence of Heat Treatment Temperature before Shot PeeningInfluential Factors for Very High Cycle Fatigue Behavior of Metallic MaterialsImpact of High-Pressure Gaseous Hydrogen on the Fatigue Behaviour of Austenitic Steel A-286 under Asymmetric Loading ConditionsEssential Characteristics and Frequency Effect for Very High Cycle Fatigue Behavior of SteelsDislocations Gliding Study by IR Thermography in C-Mn Steels with Different Solute Atoms Content in the Gigacycle Fatigue DomainEstimation of Fatigue Limit in Interior Inclusion Induced Fracture Mode for Bearing Steel in Rotating BendingFatigue Behavior of Riblet Structured High Strength Aluminum Alloy Thin Sheets at Very High Cycle NumbersInterior-Induced Fracture Mechanism of High Cleanliness Spring Steel (JIS SWOSC-V) in Very High Cycle RegimeA Study on Very High Cycle Fatigue Property of High Strength Steel for Particular Use as Medical Tablets Compressing PunchesUltrahigh Plasticity Behavior of Metallic Materials in the Ultra-High-Cycle (or Gigacycle, Very-High-Cycle) Fatigue RegimeVHCF Behavior and Word Hardening of a Ferritic-Martensitic Steel at High Mean StressesFatigue Crack Initiation and Propagation Behaviors in Rotating Bending of SNCM439 Steel in Very High Cycle RegimeExperimental Investigation and Simulation of the Fatigue Mechanisms of a Duplex Stainless Steel under HCF and VHCF Loading ConditionsFailure Mechanism of Very High Cycle Fatigue for High Strength SteelsStatistical Estimation of Duplex S-N CurvesStatistical Duplex S-N Characteristics of Bulk Amorphous Alloy in Rotating Bending in Very High Cycle RegimeHigh-Cycle Fatigue and Thermal Dissipation Investigations for Low Carbon Steel Q345Simulation of the Interaction of Plastic Deformation in Shear Bands with Deformation-Induced Martensitic Phase Transformation in the VHCF RegimeInfluence of High-Cycle Fatigue on Crater Wear Characteristics of Cemented Carbide Tool


Ed. Qingyuan Wang


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