배관을 구속시키기 위한 원동형 배관 지지대 (Trunnion Pipe Support) 까 부착된 uß 간의 응-딱해석플 위하
여 유한요소해석을 사용하였다. 해석션파로 부터 얻어진 응역은 두께에 대한 평칸(막응역) 넷 선행 응→박( "","
힘응력) 으로 분류 되었므며, 분류된 응벽값은 암략에 악한 언차응략겨l 수 (B 1 ) 와 이자응역겨l 수 (C 1 ) , 보멘트에
의한 일차응력계수 (B" , Bιr) 와 이차응략셰수 (C객, C!T) 플- 추성하시 위하여 ASME Code 에 성의뭔것파 일치
하게 해석되었다 무차원의 함수로써 응력 세수에 대한 경험식 얀 새만히기 위하여 여서 ~i~ l;'l 의 해삭 2~ 수행하
였다.
Background : Oplopanax elatus, comnonly called Asian devil’s club, is distributed in the northern high mountains of the Korean peninsula, northeastern China, and southeastern Russia. Its root is traditionally used to treat asthma, depressive states, chronic fatigue syndrome, and hypertension, neurasthenia, hypopiesis, schizophrenia, cardiovascular problems, diabetes mellitus, impotence, emaciation, hypotension cough, rheumatism, arthritis, gastrointestinal disorders, and wounds. Plant cell and tissue culture techniques for the mass production of adventitious roots in suspension culture allows a high proliferation rate, stable accumulation rate, and production of valuable compounds. Methods and Results : The plants were cultured on 1/4 MS medium with 1% sucrose and 1% plant agar for 3 month and they transferred to pot. The pots were contained of soil, soil + pelite (1 : 1), and soil + sand (1 : 1), respectively. The plants were measured plant length, leaf length, and leaf number. The number of leaves have represented as similar result of 7.44 ± 1.34 ㎝ in soil and 7.56 ± 1.26 ㎝ on soil + pelite. The 3.22 ± 0.53 ㎝ of plant length and the 6.57 ± 0.51 ㎝ of leaves length were highest on soil. Conclusion : The survival rate depending on soil types of Oplopanax elatus was confirmed to exist in these cases of soil and soil+pelite. However, they all died in condition of soil+vermiculite. The number of leaves have no difference and the length of plant and the length of leaves were longest on soil.
The effect of precoating of silica with polyamine surfactants on the adsorption of five model compounds containing asphalt-like functionalities was studied. Hexadecyltrimethylammonium chloride (HDTMA) and 1-hexadecylamine were used for silica precoating. The model compounds representing five asphalt functionalities were benzoic acid, phenol, benzylbenzoate, benzophenone, and quinoline. All the adsorption isotherms conformed well to the Langmuir adsorption model. All the model compounds showed decreased adsorption with the HDTMA precoating. However, two acidic compounds, benzoic acid and phenol, showed enhanced adsorption on the silica precoated with 1-hexadecylamine. In aqueous solutions, the adsorption of the acidic compounds were in the following order: silica precoated with 1-hexadecylamine > silica precoated with HDTMA > uncoated silica.