Article
Licensed
Unlicensed
Requires Authentication
Influence of various structural micro-defects on the fracture of cyclically stressed components revisited
Published/Copyright:
February 13, 2021
Abstract
Fatigue strength of cyclically stressed components can be affected by various sub-microdefects such as dislocations, vacancy and micropores. An interaction of dislocations and non-metallic inclusions, the formation of pores and various cracking mechanism have been described.
Published Online: 2021-02-13
Published in Print: 2020-04-01
© 2020 by Walter de Gruyter Berlin/Boston
You are currently not able to access this content.
You are currently not able to access this content.
Articles in the same Issue
- CONTENTS
- Materials Testing
- FATIGUE TESTING
- Influence of specimen diameter size on the deformation behavior and short-term strength range of an aluminum alloy
- Influence of nozzle temperature and volumetric filling on the mechanical properties of 3D-printed PEEK
- Investigation on endurance evaluation of a portal crane: experimental, theoretical and finite element analysis
- Butterfly optimization algorithm for optimum shape design of automobile suspension components
- Optimal design of automobile structures using moth-flame optimization algorithm and response surface methodology
- Efficient synthesis of porous graphitic carbon nitride nanosheets with different precursors via thermal condensation
- The spotted hyena optimization algorithm for weight-reduction of automobile brake components
- Mechanical behavior of pressurized composite pipes made of various materials
- Mechanical properties and wear-corrosion resistance of a new compound extrusion process for magnesium alloy AZ61
- Electrical contact performance of various electro-deposited graphene reinforced silver-based nanocomposites
- Effects of boric acid addition and sintering temperature on the thermal conductivity of perlitebased insulation materials
- Determination of stress concentration factors for shafts under tension
- Measurement of tensile mechanical properties of fiber reinforced plastic rebars by 3D digital image correlation
- Influence of various structural micro-defects on the fracture of cyclically stressed components revisited
- IMPRESSUM
Articles in the same Issue
- CONTENTS
- Materials Testing
- FATIGUE TESTING
- Influence of specimen diameter size on the deformation behavior and short-term strength range of an aluminum alloy
- Influence of nozzle temperature and volumetric filling on the mechanical properties of 3D-printed PEEK
- Investigation on endurance evaluation of a portal crane: experimental, theoretical and finite element analysis
- Butterfly optimization algorithm for optimum shape design of automobile suspension components
- Optimal design of automobile structures using moth-flame optimization algorithm and response surface methodology
- Efficient synthesis of porous graphitic carbon nitride nanosheets with different precursors via thermal condensation
- The spotted hyena optimization algorithm for weight-reduction of automobile brake components
- Mechanical behavior of pressurized composite pipes made of various materials
- Mechanical properties and wear-corrosion resistance of a new compound extrusion process for magnesium alloy AZ61
- Electrical contact performance of various electro-deposited graphene reinforced silver-based nanocomposites
- Effects of boric acid addition and sintering temperature on the thermal conductivity of perlitebased insulation materials
- Determination of stress concentration factors for shafts under tension
- Measurement of tensile mechanical properties of fiber reinforced plastic rebars by 3D digital image correlation
- Influence of various structural micro-defects on the fracture of cyclically stressed components revisited
- IMPRESSUM
