Page 20

Notes:

conferenceseries

.com

Volume 6

Research & Reviews: Journal of Material Sciences

Advanced Materials 2018

September 19-21, 2018

September 19-21, 2018 Tokyo, Japan

22

nd

International Conference on

Advanced Materials and Nanotechnology

Hideo Miura, Res. Rev. J Mat. Sci. 2018, Volume 6

DOI: 10.4172/2321-6212-C4-023

Quantitative characterization of the crystallinity of polycrystalline materials by applying electron

back-scatter diffraction

Hideo Miura

Tohoku University, Japan

R

ecently, physical properties of polycrystalline materials have been found to vary drastically depending on their micro

texture. The crystallinity of grain boundaries was found to dominate both their mechanical and electrical properties

and long-term reliability. This is because various defects such as vacancies, impurities, dislocations and local strain easily

concentrate around grain boundaries and thus, degrade the quality of atomic configuration in grains and grain boundaries.

In this talk, a grain boundary is defined as volumetric transition area between two grains, though it has been defined as a line

interface between nearby grains. The quality of grain boundaries is independent of crystallographic orientation of nearby

grains. Crystallinity of grain boundaries can be evaluated quantitatively by applying Electron Back-Scatter Diffraction (EBSD)

method. The order of atom arrangement in the observed area is analyzed by the sharpness of Kikuchi lines obtained from the

observed area. Various materials properties vary drastically depending on the order of atomic alignment, in particular, in grain

boundaries. Both fluctuation and degradation of various properties of materials such as heat-resistant alloys and thin films are

investigated from the viewpoint of the crystallinity of grains and grain boundaries. In addition, the diffusion of component

elements is dominated by the local quality of grain boundaries. The degradation of materials mainly starts to occur around

grain boundaries with low crystallinity because atomic diffusion is accelerated drastically along the poor-quality grain boundaries.

Therefore, it is very important to evaluate the crystallinity of advanced materials or assuring their safe and reliable operation.

Biography

Hideo Miura has completed his PhD from Tohoku University, Japan. He had worked as a Chief Researcher and is the Director and Professor of Fracture and

Reliability Research Institute. His main research topic is prediction and prevention of fracture of advanced functional materials and thin-film devices. He has

published more than 200 technical papers in the field of mechanical reliability of various materials and thin-film devices and obtained more than 200 patents all

over the world.

hmiura@rift.mech.tohoku.ac.jp