Scattering in Fatigue Crack Growth of Thin Pure Copper Sheet for Smart Stress Memory Patch
スポンサーリンク
概要
- 論文の詳細を見る
A new sensing method called “smart stress memory patch” has been developed. This patch can estimate the number of cycles and the stress amplitude using its crack length. In this study, the scattering in the fatigue crack growth of the thin copper specimen was investigated to evaluate the error of estimated number of cycles. The rolled and the electrodeposited (ED) Cu with thin thickness were prepared. The fatigue test was performed to obtain the fatigue crack growth of each sample and the fatigue crack growth behaviors of specimens with large grain size demonstrated large scatter. The observed crack path and fracture surface indicated that large grain size affects scattering in crack growth. The effect of thickness and grain size on the scattering was also evaluated by the stochastic model. Furthermore, the error of estimated number of cycles demonstrated that the accuracy of measurement for memorized stress is improved using a specimen with small grain size such as as-received ED Cu for smart stress memory patch.
- 社団法人 日本鉄鋼協会の論文
- 2007-11-15
著者
-
Enoki Manabu
Dep. Of Materials Engineering School Of Engineering The Univ. Of Tokyo
-
Enoki Manabu
Department Of Engineering The University Of Tokyo
-
Nambu Shoichi
Dep. Of Materials Engineering School Of Engineering The Univ. Of Tokyo
-
Nambu Shoichi
Department Of Engineering The University Of Tokyo
関連論文
- Fatigue Process Evaluation of Ultrasonic Fatigue Testing in High Strength Steel Analyzed by Acoustic Emission and Non-Linear Ultrasonic
- SCC Monitoring of Chloride Droplets on Thin SUS304 Plate Specimens by Analysis of Continuous Recorded AE Waveform
- Acquisition and Analysis of Continuous Acoustic Emission Waveform for Classification of Damage Sources in Ceramic Fiber Mat
- Evaluation of Thermal Deformation Process of Nickel Based Active Composites by Laser AE Technique
- Crack Monitoring during Plasma Spraying of Ceramic Coatings by Non-Contact Acoustic Emission Method
- Deformation and Anelastic Recovery of Pure Magnesium and AZ31B Alloy Investigated by AE
- Recovery Behaviour of Pure Magnesium in Cyclic Compression-Quick Unloading-Recovery Process at Room Temperature Investigated by AE
- Evaluation of the Twinning Behavior of Polycrystalline Magnesium at Room Temperature by Acoustic Emission
- Classfication of Microfracture Process Type in Glass Matrix Composites by Quantitative Acoustic Emission Method
- Evaluation of Microfracture Mode in Ceramic Coating during Thermal Cycle Test using Laser AE Technique
- Reactive Transient Liquid Phase Bonding between AZ31 Magnesium Alloy and Low Carbon Steel
- Monitoring of Acoustic Emission Activity of Smart Stress Memory Patch to Estimate Maximum Fatigue Stress for Structural Health Monitoring
- Evaluation of Fatigue Properties of Steel Bar by Smart Stress-memory Patch
- Scattering in Fatigue Crack Growth of Thin Pure Copper Sheet for Smart Stress Memory Patch
- Smart Stress-Memory Patch for Fatigue Damage of Structure
- W03I Development of stress memory patch(International Workshop on "New Frontiers of Smart Materials and Structural Systems")
- Fatigue Crack Length Measurement of Sputtered Metal Film for RFID-based Smart Stress Memory Patch
- Detection of AE Events due to Cracks in TBC during Spraying Process
- Strain-Controlled Fatigue Behavior in Thin Pure Copper Sheet for Smart Stress-Memory Patch
- Ferrite Formation Behaviors from B1 Compounds in Steels
- In-Situ Observation and Acoustic Emission Analysis for Corrosion Pitting of MgCl_2 Droplet in SUS304 Stainless Steel
- Finite Element Analysis of Tensile Fatigue Behavior of Coronary Stent
- Effects of Plating Conditions on Electroless Ni-Co-P Coating Prepared from Lactate-Citrate-Ammonia Solution