Technology Information Archives

The followings are our papers and proceedings we presented.(Publishers’ and authors’ approval obtained.)

Papers

Load dependence of densification in glass during Vickers indentation test,
Journal of the Ceramic Society of Japan, 119, 110 (2011)
(823KB)
Influence of light scattering on luminous efficacy in Ce:YAG glass-ceramic phosphor,
Journal of the Ceramic Society of Japan, 118, 128 (2010)
(654KB)
Effect of B2O3 content on crack initiation under Vickers indentation test,
Journal of the Ceramic Society of Japan, 118, 792 (2010)
(202KB)

Proceedings

Evaluation of effective thermal conductivity of glass melts by steady-state method with numerical simulation
[CerSJ-GOMD Joint Symposium2016]
(470KB)
Evaluation of behaviour of fining agents in glass melting process (INVITED TALK)
[CerSJ-GOMD Joint Symposium2016]
(237KB)
Development of new thermal protection systems based on polysiloxane/silica composites: Properties Characterization I
[SAMPE Long Beach 2016]
(1,064KB)
Inorganic wavelength conversion materials for high power solid-state lighting (INVITED TALK)
[ICG2016]
(107KB)
Enhancement of the light extraction efficiency by using high refractive index glass substrate for OLED lighting
[ICG2016]
(102KB)
Identification of bubble generation potential of glass melts with low DC voltage by direct observation
[ICG2016]
(106KB)
High edge strength glass for mobile devices
[SID2015]
(606KB)
Development of high strength chemically strengthened glass
[ISNOG2014]
(278KB)
World’s first high refractive index glass substrate for OLED lighting produced by over flow down draw process
[ISNOG2014]
(278KB)
Wavelength conversion material “Phosphor-glass composites” for high power solid-state lighting
[ISNOG2014]
(275KB)
High thermal stability glass substrate for high resolution display
[IDW’14]
(346KB)
Development of high strength chemically strengthened glass
[SID2014]
(476KB)
Wavelength conversion material “Phosphor-Glass Composites” for high power solid-state lighting
[IDW’13]
(1,205KB)
Low thermal shrinkage glass substrate for high definition display
[IDW’13]
(129KB)
Ultra thin glass roll for flexible AMOLED display
[IDW’11]
(141KB)