Year of submission & title
2024
| Student | Title |
|---|---|
| Daisuke KITATANI | Evaluation of time-dependent fracture property from a small surface defect in a resin material |
| Keisuke SHINODA | Investigation of stress corrosion cracking mechanism of a 7000-series aluminum alloy plate in a salt water environment |
| Ryo NAKATA | Discussion on fatigue resistance property of steels –investigation by the use of an ultra-low carbon steel- |
| Koyo NAGAI | Effect of hydrogen absorption on strength properties of polycrystalline palladium: investigation regarding microstructural change |
2023
| Student | Title |
|---|---|
| Keiki KAWANAMI | Stress corrosion cracking mechanism of A7003 alloy plate in salt water environment |
| Kei TAKEHARA | Evaluation of hydrogen embrittlement of polycrystalline palladium -strength properties and microscopic mechanisms- |
| Shintaro FUJII | Analysis of time-dependent crack growth mechanism in single-cystal nickel-based superalloys |
| Manami MACHIDA | Time-dependent crack initiation and propagation characteristics from small surface defects (study using epoxy resin) |
2022
| Student | Title |
|---|---|
| Ryumon Okada | Microscopic analysis of hydrogen-induced damage in palladium polycrystals |
| Ryota Okuda | High cycle fatigue properties of aluminum alloys containing solid solution magnesium |
2021
| Student | Title |
|---|---|
| Yusuke Morii | Damage analysis of palladium polycrystals due to hydrogen absorption |
| Yusuke Kawabata | Tensile Fracture Properties of 7000 Series Aluminum Alloys in Salt Water |
2020
| Student | Title |
|---|---|
| Kazutoshi SAKAMOTO | Time-dependent peeling crack generation strength rule from the interface edge of dissimilar materials (effect of material) |
| Tomoyuki KOZAWA | High temperature creep crack growth mechanism analysis of single crystal Ni-based superalloys |
2019
| Student | Title |
|---|---|
| Hiroki NAKANO | High cycle fatigue properties of Al-Cu alloy |
| Kaname KISHIMOTO | Evaluation of interfacial crack initiation strength from free-edge in micro-scale Si/Cu components -effect of interface free-edge shape and environment- |
| Kenta WADA | Time-dependent crack initiation strength from interface edge of adhesive joints (Epoxy/SUS) |
2018
| Student | Title |
|---|---|
| Kosuke INOUE | Study on time-dependent delamination crack initiation strength from interface edge (investigated of Epoxy/SUS joint) |
| Masaki KASHIHARA | Analysis of high temperature fatigue crack propagation mechanism of Ni-based superalloy |
| Jun KURIHARA | High cycle fatigue characteristics of 6000 series aluminum alloy which contains strain aging ability (influence of temperature) |
2017
| Student | Title |
|---|---|
| Itaru ASHIDA | Evaluation of interfacial crack initiation strength from free-edge in micro-scale Si/Cu components (effect of hydrogen) |
| Ryosuke KURIKI | High-cycle fatigue properties of A6061-T6-based new Al alloy (effect of environment) |
2016
| Student | Title |
|---|---|
| Kazuya AIHARA | Evaluation of strength against interfacial crack initiation from free-edges in Si/Cu micro-componets(effect of free-edge shape) |
| Ryo ASANO | Evaluation of grain boundary hydrogen embrittlement using a single grain boundary specimen |
| Shusaburo KITA | High-cycle fatigue strength properties of A6061-T6-based new Al alloys (effect of temperature) |
| Hironari NISHIOKA | Investigation on the influence of solute Mg on static/fatigue strength of precipitation-hardened Al-Cu-Mg alloy |
2015
| Student | Title |
|---|---|
| Yuji KAWATA | High-cycle fatigue strength properties of A6061-T6-based new Al alloys (effect of temperature) |
| Takuya WADA | Gaga-cycle fatigue properties of A6061-T6-based new Al alloy (effect of environment) |
2014
| Student | Title |
|---|---|
| Hikaru KONDO | Study on environmental strength properties of interfaces by micro experiments |
| Ryota NAKAMICHI | High-cycle fatigue properties of A6061-T6-based new Al alloy |
2012
| Student | Title |
|---|---|
| Keiichi UEDA | Study on time-dependent creep crack inititation from interface edge |
| Hiroaki YOSHITAKE | Super high-cycle fatigue properties of new Al alloy with strain aging capability |