Investigation of very high cycle fatigue by thermographyc method
Nowadays, many components and structures are subjected to fatigue loading with a number of cycles higher than 107. In this scientific work, the behaviour of two kinds of tool steel was investigated in very high cycle fatigue regime. The fatigue tests were carried out at the frequency of 20 kHz and...
| 發表在: | Fracture and Structural Integrity |
|---|---|
| Main Authors: | V. Crupi, G. Epasto, E. Guglielmino, G. Risitano |
| 格式: | Article |
| 語言: | 英语 |
| 出版: |
Gruppo Italiano Frattura
2014-10-01
|
| 主題: | |
| 在線閱讀: | http://www.gruppofrattura.it/pdf/rivista/numero30/numero_30_art_68.pdf |
相似書籍
Investigation of very high cycle fatigue by thermographyc method
由: V. Crupi, et al.
出版: (2014-09-01)
由: V. Crupi, et al.
出版: (2014-09-01)
Influence of Weld-Porosity Defects on Fatigue Strength of AH36 Butt Joints Used in Ship Structures
由: Vincenzo Crupi, et al.
出版: (2021-03-01)
由: Vincenzo Crupi, et al.
出版: (2021-03-01)
Fatigue assessment by energy approach during tensile tests on AISI 304 steel
由: A. Risitano, et al.
出版: (2016-12-01)
由: A. Risitano, et al.
出版: (2016-12-01)
Fatigue strength evaluation of PPGF35 by energy approach during mechanical tests
由: Giacomo Risitano
出版: (2021-12-01)
由: Giacomo Risitano
出版: (2021-12-01)
Fatigue strength evaluation of PPGF35 by energy approach during mechanical tests
由: Giacomo Risitano
出版: (2022-01-01)
由: Giacomo Risitano
出版: (2022-01-01)
Very High Cycle Fatigue of Welds: A Review
由: Andrew England, et al.
出版: (2023-11-01)
由: Andrew England, et al.
出版: (2023-11-01)
Fatigue Life Analysis of Traditional and Annealed AISI 304L Specimens by Thermographic Methods
由: Davide Crisafulli, et al.
出版: (2025-02-01)
由: Davide Crisafulli, et al.
出版: (2025-02-01)
Very High Cycle Fatigue (VHCF) of notched specimens: a review
由: Paolo Zuliani, et al.
出版: (2025-09-01)
由: Paolo Zuliani, et al.
出版: (2025-09-01)
Advanced algorithms for early detection of first damage during static tensile tests
由: Davide D'Andrea, et al.
出版: (2025-09-01)
由: Davide D'Andrea, et al.
出版: (2025-09-01)
Development of a Very High Cycle Fatigue (VHCF) multiaxial testing device
由: M. Vieira, et al.
出版: (2016-06-01)
由: M. Vieira, et al.
出版: (2016-06-01)
Development of a Very High Cycle Fatigue (VHCF) multiaxial testing device
由: M. Vieira, et al.
出版: (2016-07-01)
由: M. Vieira, et al.
出版: (2016-07-01)
Notch Effect on the Fatigue Behavior of a TC21 Titanium Alloy in Very High Cycle Regime
由: Baohua Nie, et al.
出版: (2018-09-01)
由: Baohua Nie, et al.
出版: (2018-09-01)
Biaxial Very High Cycle Fatigue Testing and Failure Mechanism of Welded Joints in Structural Steel Q345
由: Bing Xue, et al.
出版: (2024-09-01)
由: Bing Xue, et al.
出版: (2024-09-01)
Scaling of damage mechanism for additively manufactured alloys at very high cycle fatigue
由: B. S. Voloskov, et al.
出版: (2024-05-01)
由: B. S. Voloskov, et al.
出版: (2024-05-01)
Properties of the Fine Granular Area and Postulated Models for Its Formation during Very High Cycle Fatigue—A Review
由: Jan Patrick Sippel, et al.
出版: (2020-11-01)
由: Jan Patrick Sippel, et al.
出版: (2020-11-01)
FATIGUE CRACKING MECHANISMS OF TITANIUM ALLOY VT3-1 IN VERY-HIGH-CYCLE-FATIGUE REGIME
由: A. A. Shanyavskiy, et al.
出版: (2016-11-01)
由: A. A. Shanyavskiy, et al.
出版: (2016-11-01)
Very High Cycle Fatigue Investigations on the Fatigue Strength of Additive Manufactured and Conventionally Wrought Inconel 718 at 873 K
由: Alexander Schmiedel, et al.
出版: (2021-10-01)
由: Alexander Schmiedel, et al.
出版: (2021-10-01)
Effect of Turning on the Surface Integrity and Fatigue Life of a TC11 Alloy in Very High Cycle Fatigue Regime
由: Tao Gao, et al.
出版: (2020-11-01)
由: Tao Gao, et al.
出版: (2020-11-01)
Effect of high temperature on crack initiation of super austenitic stainless steel 654SMO in very high cycle fatigue
由: Xue Li, et al.
出版: (2020-08-01)
由: Xue Li, et al.
出版: (2020-08-01)
Effect of Basketweave Microstructure on Very High Cycle Fatigue Behavior of TC21 Titanium Alloy
由: Baohua Nie, et al.
出版: (2018-05-01)
由: Baohua Nie, et al.
出版: (2018-05-01)
An analysis on statistical fatigue property of bearing steel in very high cycle regime under rotating bending
由: Yuki NAKAMURA, et al.
出版: (2018-10-01)
由: Yuki NAKAMURA, et al.
出版: (2018-10-01)
Damage evolution in the AlMg6 alloy during high and very high cycle fatigue
由: Mikhail Bannikov, et al.
出版: (2019-06-01)
由: Mikhail Bannikov, et al.
出版: (2019-06-01)
Damage evolution in the AlMg6 alloy during high and very high cycle fatigue
由: Mikhail Bannikov, et al.
出版: (2019-07-01)
由: Mikhail Bannikov, et al.
出版: (2019-07-01)
Very High Cycle Fatigue Behavior of TA11 Titanium Alloy
由: JIAO Zehui, et al.
出版: (2017-06-01)
由: JIAO Zehui, et al.
出版: (2017-06-01)
Review of Multiaxial Testing for Very High Cycle Fatigue: From ‘Conventional’ to Ultrasonic Machines
由: Pedro Costa, et al.
出版: (2020-05-01)
由: Pedro Costa, et al.
出版: (2020-05-01)
Crack propagation mechanism and life prediction for very-high-cycle fatigue of a structural steel in different environmental medias
由: Guian Qian, et al.
出版: (2013-07-01)
由: Guian Qian, et al.
出版: (2013-07-01)
Very-High-Cycle Fatigue and Charpy Impact Characteristics of Manganese Steel for Railway Axle at Low Temperatures
由: Byeong-Choon Goo, et al.
出版: (2020-07-01)
由: Byeong-Choon Goo, et al.
出版: (2020-07-01)
Influence of Non-Metallic Inclusions on Very High-Cycle Fatigue Performance of High-Strength Steels and Interpretation via Crystal Plasticity Finite Element Method
由: Yingxin Zhao, et al.
出版: (2024-08-01)
由: Yingxin Zhao, et al.
出版: (2024-08-01)
Accelerated estimation of the very high cycle fatigue strength and life of polymer composites under ultrasonic cyclic three-point bending
由: Aravind Premanand, et al.
出版: (2024-04-01)
由: Aravind Premanand, et al.
出版: (2024-04-01)
Very-High-Cycle Fatigue Behaviors for Bearing Steel Microstructural Transformation
由: Seung-Hoon Nahm, et al.
出版: (2024-11-01)
由: Seung-Hoon Nahm, et al.
出版: (2024-11-01)
The Effect of Microstructure on the Very High Cycle Fatigue Behavior of Ti-6Al-4V Alloy
由: Mingyang Yuan, et al.
出版: (2024-02-01)
由: Mingyang Yuan, et al.
出版: (2024-02-01)
Crack initiation mechanisms and life prediction of GH4169 superalloy in the high cycle and very high cycle fatigue regime
由: Zhi Qin, et al.
出版: (2023-09-01)
由: Zhi Qin, et al.
出版: (2023-09-01)
Very high-cycle fatigue properties of 90° unidirectional CFRP laminates and evaluation of fatigue limits by free volume measurement using positron microscopy
由: Masafumi TAZUKE, et al.
出版: (2023-05-01)
由: Masafumi TAZUKE, et al.
出版: (2023-05-01)
Assessment of Fatigue Life and Failure Criteria in Ultrasonic Testing Through Thermal Analyses
由: Maria Clara Carvalho Teixeira, et al.
出版: (2025-01-01)
由: Maria Clara Carvalho Teixeira, et al.
出版: (2025-01-01)
Effect of ultrasonic peening treatment on the fatigue behaviors of a magnesium alloy up to very high cycle regime
由: Yao Chen, et al.
出版: (2022-03-01)
由: Yao Chen, et al.
出版: (2022-03-01)
Microstructure Study on Very High Cycle Fatigue of an Additively Manufactured Aluminium Alloy via Advanced Characterization Methods
由: Lu Liu, et al.
出版: (2024-02-01)
由: Lu Liu, et al.
出版: (2024-02-01)
Effect of long-period stacking ordered structure on very high cycle fatigue properties of Mg-Gd-Y-Zn-Zr alloys
由: Xiangyu WANG, et al.
出版: (2023-08-01)
由: Xiangyu WANG, et al.
出版: (2023-08-01)
Construction of probabilistic model on interior crack initiation and growth behaviors for high strength steels in very high cycle fatigue
由: Noriyasu OGUMA, et al.
出版: (2022-03-01)
由: Noriyasu OGUMA, et al.
出版: (2022-03-01)
Rapid Assessment of Ti-6Al-4V Fatigue Limit via Infrared Thermography
由: Chiara Colombo, et al.
出版: (2025-07-01)
由: Chiara Colombo, et al.
出版: (2025-07-01)
Temperature dependence of very high cycle fatigue behavior and life modeling for In713C Ni-based superalloy
由: Xiao-Long Li, et al.
出版: (2025-05-01)
由: Xiao-Long Li, et al.
出版: (2025-05-01)
相似書籍
-
Investigation of very high cycle fatigue by thermographyc method
由: V. Crupi, et al.
出版: (2014-09-01) -
Influence of Weld-Porosity Defects on Fatigue Strength of AH36 Butt Joints Used in Ship Structures
由: Vincenzo Crupi, et al.
出版: (2021-03-01) -
Fatigue assessment by energy approach during tensile tests on AISI 304 steel
由: A. Risitano, et al.
出版: (2016-12-01) -
Fatigue strength evaluation of PPGF35 by energy approach during mechanical tests
由: Giacomo Risitano
出版: (2021-12-01) -
Fatigue strength evaluation of PPGF35 by energy approach during mechanical tests
由: Giacomo Risitano
出版: (2022-01-01)