Focusing on the development of electromagnetic probes, the team is committed to establishing technologies to evaluate and diagnose precursor signs prior to cracking as well as degradation mode such as high-temperature creeping and degraded FRP environment
New Project for Materials Reliability
Non-destructive Evaluation Project
Project Leader: Mitsuharu SHIWA
Focusing on the development of electromagnetic probes, the team is committed to establishing technologies to evaluate and diagnose precursor signs prior to cracking as well as degradation mode such as high-temperature creeping and degraded FRP environment
Focusing on the development of electromagnetic probes, the team is committed to establishing technologies to evaluate and diagnose precursor signs prior to cracking as well as degradation mode such as high-temperature creeping and degraded FRP environment
Next Generation Heat Resistant Steel Project
Project Leader: Kazuhiro KIMURA
The team develops novel technology to reinforce heat resistant steel and its reliability evaluation approach based on reinforced tissues to eliminate structural failure at the atomic level and by using intermetallic compounds as an alternative to conventional high-strength ferrite heat resistant steel with tempered martensite tissue.
The team develops novel technology to reinforce heat resistant steel and its reliability evaluation approach based on reinforced tissues to eliminate structural failure at the atomic level and by using intermetallic compounds as an alternative to conventional high-strength ferrite heat resistant steel with tempered martensite tissue.
