Advanced Materials and Material Strength Evaluation Laboratory
Development and mechanical strength assessment of materials capable of maintaining structural stability in high temperature and other extreme environments
Toward the most attractive high-tech materials
Under the research policy of
"Let's make the most attractive high-tech materials and evaluate mechanical properties,"
this lab is conducting research to create new metals, nano, and composite materials and verify their performance based on basic physical understanding centered on solid mechanics.
From microstructure to macroscopic properties
Although the invisible material internal structure determines the overall physical properties
its connection mechanism remains an open question.
From invisible to actual performance
AMSE aims to reveal the mechanism of connection
between microstructure and macroscopic properties
by directly implementing and evaluating materials from nanoscale to real scale.
Research focus
Metal Tribology
Quantifies friction/wear behavior under high-temperature and high-load conditions, and improves durability and reliability with surface and coating design.
Research focus
Basalt Fiber Composite Materials
We study fiber composite design for lightweight structure and EMI shielding and metal coating-based functionality enhancements.
Research focus
Molecular Dynamics
The crystal grain, potential, and phase transformation mechanisms are identified by LAMMPS-based atomic scale analysis and linked to experimental results.
Start researching with AMSE
Our laboratory aims to explore interactions within solids and chemical reactions between materials,
drawing on accumulated expertise in electron microscopy observations, numerical simulations,
and mechanical property evaluation.
Through this approach, we seek to design novel metallic, nano-, and composite materials.
In this process, we develop a wide range of experimental and analytical methodologies in parallel
and pursue research that fosters a fundamental understanding of material behavior.
We warmly welcome the active participation of student researchers who share this interest.
Students who are interested in solid and structural behavior,
curious about the micro- to nanoscale world,
and eager to engage with new technologies and knowledge—
especially those who enjoy asking questions and understanding physical phenomena—
are encouraged to contact us freely, regardless of major or academic year.
Laboratory tours and meetings are always open and available.
