http://chineseinput.net/에서 pinyin(병음)방식으로 중국어를 변환할 수 있습니다.
변환된 중국어를 복사하여 사용하시면 됩니다.
ABE, Fujiko,OHBUCHI, Yoshifumi,SAKAMOTO, Hidetoshi Korean Society for Engineering Education 2019 공학교육연구 Vol.22 No.5
Folded structure is widely applied in various engineering fields. Many of the Japanese folding fans in the Edo era (1603-1868) have been successfully blended with the processing technology of "natural materials" that is the origin of Japan's "Monodzukuri" (craftsmanship) and its application "artistic originality". The charm of a fan lies in the diversity of stereoscopic expression not born in plane representation. For example, the effects of folds, the expression of the front and back sides flowing from the front to the back by double-sided description, and the two-layer effect of raising the backside from the surface using the permeability of Japanese paper, the calculated depiction are also seen. Moreover, by handling the fan, it also produced an illusion effect which skillfully calculated the change due to movement of the viewpoint. Students experience the natural materials such as Japanese paper, bamboo and starch paste, which are the materials of paint and fan at the time, and processing method, and know the difference with the current one. This study is to verify the effectiveness of engineering education which gains experience by making concrete fans and to understand deeply this traditional technology with the artistry of a Japanese fan at the same time. And we can learn from the characteristics of the fan to Japan's history and culture.
Fujiko ABE,Yoshifumi OHBUCHI,Hidetoshi SAKAMOTO 한국공학교육학회 2019 공학교육연구 Vol.22 No.5
Folded structure is widely applied in various engineering fields. Many of the Japanese folding fans in the Edo era (1603-1868) havebeen successfully blended with the processing technology of "natural materials" that is the origin of Japan's “Monodzukuri” (craftsmanship)and its application "artistic originality". The charm of a fan lies in the diversity of stereoscopic expression not born in plane representation. For example, the effects of folds, the expression of the front and back sides flowing from the front to the back by double-sided description,and the two-layer effect of raising the backside from the surface using the permeability of Japanese paper, the calculated depictionare also seen. Moreover, by handling the fan, it also produced an illusion effect which skillfully calculated the change due to movementof the viewpoint. Students experience the natural materials such as Japanese paper, bamboo and starch paste, which are the materialsof paint and fan at the time, and processing method, and know the difference with the current one. This study is to verify the effectivenessof engineering education which gains experience by making concrete fans and to understand deeply this traditional technology withthe artistry of a Japanese fan at the same time. And we can learn from the characteristics of the fan to Japan's history and culture.
YH1885의 체내동태(제1보) : 흰쥐에서 14C-YH1885의 단회투여시 흡수, 조직분포 및 배설
안병락(Byung Nak Ahn),Naoki Fujio,Naotoshi Kusumoto,Yoshifumi Abe,Masaaki Odomi,이종욱(Jong Wook Lee) 대한약학회 1997 약학회지 Vol.41 No.3
The absorption, distribution and excretion of 14C labeled YH1885 {5,6-Dimethyl-2(4-fluorophenylamino)-4-(1-methyl-1,2,3,4-tetrahydroisoquinolin-2-yl)pyrimidine hydrochloride), a new proton pumpinhibitor, were investigated in rats after a single administration of 14C-YH1885. 1. After intravenous administration of 5mg/kg, the blood level of radioactivity declined in a biphasic fashion with the mean terminal elimination half-life of 12.4hr. 2. After oral administration of 20mg/kg, the maximum blood level of radioactirity was reached at 4.0hr in female rats. The blood level of radioactivity-time profiles in male and female rats were similar, and the absorptionof 14C-YH1885 was not affected by food. 3. Appproximately 89% and 1% of radioactivity of the total dose were excreted in feces and urine, respectively. 4. Biliary excretion of radioactivity was 47.9% of the dose. Enterohepatic circulation of radioactivity was 49.6%. 5. Radioactivity was excreted maily into feces via bile. 6. The concentration of radioactivity in most tissues reached the peak level at 4.0hr after dosing, and then declined. Autoradiograms of male rats showed that the radioactivity levlels in the fat, harder's gland, liver and G-Itract were higher than those in the other tissues and the elimination of radioactivity from fat and liver was slow. 7. Autoradiograms of a pregnant rat showed that radioactivity was transferred to mammary gland, placenta and fetus. The radioactivity level in the mammary gland was higher than that in the blood.