A |
|
after treatment |
Kidoguchi, Yoshiyuki |
axial flow fan |
Shigemitsu, Toru |
B |
|
Bamboo Fiber |
Takagi, Hitoshi |
bicrystal |
Okada, Tatsuya |
Biomechanics |
SATO, Katsuya |
boundary layer |
Ichimiya, Masashi |
C |
|
cell |
SATO, Katsuya |
centrifugal pump |
Shigemitsu, Toru |
combustion |
Kidoguchi, Yoshiyuki / Nada, Yuzuru |
Composites |
Takagi, Hitoshi |
computational fluid dynamics |
Kidoguchi, Yoshiyuki |
computer vision |
Ukida, Hiroyuki |
contact analysis |
Oishi, Atsuya |
control |
Miwa, Masafumi |
Control Engineering |
Takaiwa, Masahiro |
crystal plasticity |
Okada, Tatsuya |
crystallographic defect |
Okada, Tatsuya |
cutting force |
Mizobuchi, Akira |
D |
|
diamond |
Okada, Tatsuya |
diesel engine |
Kidoguchi, Yoshiyuki |
E |
|
Emmission |
Kidoguchi, Yoshiyuki |
epitaxial film |
Okada, Tatsuya |
F |
|
finite element analysis |
Oishi, Atsuya |
finite element method (→ finite element analysis) |
G |
|
Green Composites |
Takagi, Hitoshi |
H |
|
heat treatment |
Hisazawa, Hiromu |
hydrogen |
Kidoguchi, Yoshiyuki |
I |
|
image processing |
Hisazawa, Hiromu / Ukida, Hiroyuki |
Infrared thermography |
Ishikawa, Masashi |
intermittent cutting |
Mizobuchi, Akira |
internal flow |
Shigemitsu, Toru |
inverse problem |
Oishi, Atsuya |
J |
|
jet |
Ichimiya, Masashi |
K |
L |
|
Latent Thermal Energy Storage |
Kusano, Koji |
M |
|
mechanical engineering |
SATO, Katsuya |
Mechanotransduction |
SATO, Katsuya |
mechatronics |
Miwa, Masafumi |
MEMS |
SATO, Katsuya |
micromachine |
Miwa, Masafumi |
microstructure control |
Hisazawa, Hiromu |
modal analysis |
Hino, Junichi |
motion control |
Takaiwa, Masahiro |
Multiphase Flow |
Kusano, Koji |
N |
|
Ni-based superalloys |
Hisazawa, Hiromu |
nitride semiconductor films |
Kusaka, Kazuya |
non-destructive testing |
Ishikawa, Masashi |
Numerical Analysis |
Kusano, Koji |
O |
P |
|
parallel computing |
Oishi, Atsuya |
photocatalyst |
Yonekura, Daisuke |
pipe flow |
Ichimiya, Masashi |
Pneumatic Driving System |
Takaiwa, Masahiro |
Q |
R |
|
recrystallization |
Okada, Tatsuya |
Recycle |
Takagi, Hitoshi |
relaminarization |
Ichimiya, Masashi |
residual stress |
Kusaka, Kazuya / Yonekura, Daisuke |
Robot System |
Takaiwa, Masahiro |
S |
|
sawing |
Mizobuchi, Akira |
SEM/EBSD |
Okada, Tatsuya |
Shape Memory Alloys |
Takagi, Hitoshi |
shape reconstruction |
Ukida, Hiroyuki |
SiC |
Okada, Tatsuya |
single crystal |
Okada, Tatsuya |
small-sized fluid machinery |
Shigemitsu, Toru |
Solid/Liquid Phase Change Heat Transfer |
Kusano, Koji |
sputtering |
Kusaka, Kazuya / Yonekura, Daisuke |
surface roughness |
Mizobuchi, Akira |
T |
|
tensioning method |
Mizobuchi, Akira |
texture control |
Okada, Tatsuya |
thin film |
Yonekura, Daisuke |
tipped saw |
Mizobuchi, Akira |
tool life |
Mizobuchi, Akira |
tool temperature |
Mizobuchi, Akira |
tool wear |
Mizobuchi, Akira |
transfer performance |
Shigemitsu, Toru |
transition |
Ichimiya, Masashi |
transmission electron microscopy |
Hisazawa, Hiromu / Okada, Tatsuya |
transparent conducting oxide |
Yonekura, Daisuke |
transparent conducting oxides (→ transparent conducting oxide) |
tricrystal |
Okada, Tatsuya |
turbulence |
Ichimiya, Masashi |
turbulent flow (→ turbulence) |
U |
|
ultra-precision cutting |
Mizobuchi, Akira |
ultrasound |
Yonekura, Daisuke |
V |
|
vibration analysis |
Hino, Junichi |
vibration control |
Hino, Junichi |
W |
|
welding |
Yonekura, Daisuke |
X |
|
X-ray diffraction |
Kusaka, Kazuya |
YZ |