• 제목/요약/키워드: dip pick-up

검색결과 4건 처리시간 0.016초

Effect of Dynamic Flow on the Structure of Inhibition Layer in Hot-dip Galvanizing

  • Jin, Young Sool;Kim, Myung Soo;Kim, Su Young;Paik, Doo Jin
    • Corrosion Science and Technology
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    • 제10권1호
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    • pp.30-36
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    • 2011
  • The effect of dynamic flow or forced convection were investigated and compared on the formation of inhibition layer, galvanizing and galvannealing reactions through the hot-dip galvanizing simulator with the oscillation of specimen in zinc bath, continuous galvanizing pilot plant with zinc pumping system through the snout and continuous galvanizing operation with Dynamic $Galvanizing^{TR}$ system. The interfacial Al pick-up was not consistent between the results of simulator, pilot plant and line operation, but the morphology of inhibition layer became compact and refined by the forced convection. The growth of Fe-Zn intermetallics at the interface was inhibited by the forced convection, whereas the galvannealing rate would be a little promoted.

직접블렌딩 기술과 접착제 조성이 고무복합체 물성에 미치는 영향 (Adhesion Properties of Rubber Composite with Direct Blending Technique and Adhesive Composition)

  • 이성재;장영욱;정경호
    • Elastomers and Composites
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    • 제34권3호
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    • pp.253-261
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    • 1999
  • 조성이 다른 접착제를 포함한 고무혼합물의 가교특성은 접착제 조성에서 탄닌이 많이 포함될수록 스코치 시간은 증가하였으며 경화속도는 다소 감소하는 것으로 보아 탄닌 분자의 크기와 형태 때문에 초기 가교반응을 지연시킴과 동시에 경화속도 역시 다소 지연됨을 알 수 있었다. 이들 고무혼합물의 인장물성 역시 탄닌이 많이 함유된 접착제를 고무에 혼합할수록 고무혼합물의 인장강도는 다소 감소하였다. 이는 탄닌이 많이 함유될수록 가교반응을 지연시켜 전체 고무혼합물의 가교도가 감소하기 때문일 것으로 사료되었다. 또한 접착제의 조성이 고무-섬유 접착에 미치는 영향을 보강코드로서 나일론 610 모노필라멘트를 사용하여 TCAT(Tire Cord Adhesion Test) 방법으로 조사하였다. 레소시놀-탄닌-포름알데히드-라텍스(RTFL) 접착제 조성에서 레소시놀 1 mole당 포름알데히드의 mole 비가 증가할수록 접착력은 증가하였고 대략 포름알데히드 5mole 이상에서 최적의 접착력을 나타냈다. 보강코드상의 접착제 수확량(DPU) 역시 최종 접착력에 영향을 미치지만, 나일론 610 모노필라멘트의 경우는 접착제 조성에 따른 DPU가 거의 일정하여 접착력의 차이는 접착제의 조성 중 탄닌의 거동 때문으로 해석될 수 있었다.

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감물염색을 활용한 전통 문화상품의 개발 (Development of Traditional Cultural Products Using Persimmon Dyeing)

  • 이은진;김선경;조효숙
    • 복식문화연구
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    • 제15권6호
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    • pp.1053-1062
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    • 2007
  • This study purposed to restructure representative traditional patterns formatively, manufacture actual cultural products with traditional dyeing technique using persimmon, and commercialize the results of the research. Traditionally in Korea, the dying of natural fiber such as cotton, flax and silk with persimmon was called Galmul dyeing, and clothes made through Galmul dyeing were called Galot. Galot was very useful because it is strong, does not pick up dirt easily, dries easily, and is cool in summer. In addition, cloth dyed with persimmon becomes stiff, so it does not need to be starched or ironed after washing. Moreover, it does not transmit heat under direct rays and is highly air-permeable, so it is cool and useful for standing the heat. In this study, we used traditional persimmon dyeing technique, printing traditional patterns fit for contemporary people's aesthetic sense not through dip-dying but through printing. When persimmon dyeing is used in expressing patterns, it produces not only visual effect but also embossing effect due to the characteristic of persimmon that makes printed patterns stiff, so we can obtain unique texture distinguished from other printing methods. We chose seven motive patterns, which were lotus pattern symbolizing eternal life, peony pattern symbolizing wealth and rank and prosperity, character Su(壽) pattern widely used as a symbol of health, bird and cloud pattern in the Goryeo Dynasty, Sahapyeoeuisohwa(四合如意小花) pattern printed on brocade in the Goryeo Dynasty, lattice pattern, cloth pattern on wall paintings from the Period of the Three Kingdoms. From each pattern chosen as a motive was extracted unit patterns and the original pattern was restored using Adobe Illustrator. Restored patterns were restructured to be applied to cultural products fit for contemporary formative sense. Fabrics used in dyeing were cotton, linen, ramie, silk, and polyester. Although the same persimmon dyeing was applied, we produced different feelings of patterns using various fabrics and in some cases gold and silver powder was added for the effect of gloss in addition to the embossing of patterns. Using printed fabrics we manufactured tea pads, place mats, cushions, wrapping cloth for gifts, wallet, lampshades.

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간호교육기관의 실험실습설비 보유실태 조사 (A Survey on the Actual State of Laboratory Facilities and Equipments at Nursing Schools)

  • 임난영;이선옥;서문자;김혜숙;김문실;오경옥
    • 대한간호
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    • 제36권1호
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    • pp.108-117
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    • 1997
  • This study was carried out to examine the standards for evaluation of laboratory facilities and equipment. These constitute the most important yet vulnerable area of our system of higher education among the six school evaluation categories provided by the Korean Council for University Education. To obtain data on the present situation of holdings and management of laboratory facilities and equipment at nursing schools in Korea, questionnaires were prepared by members of a special committee of the Korea Nursing Education Society on the basis of the Standards for University Laboratory Facilities and Equipment issued by the Ministry of Education. The questionnaires were sent to nursing schools across the nation by mail on October 4, 1995. 39 institutions completed and returned the questionnaires by mail by December 31 of the same year. The results of the analysis of the survey were as follows: 1. The Physical Environment of Laboratories According to the results of investigation of 14 nursing departments at four-year colleges, laboratories vary in size ranging from 24 to 274.91 pyeong ($1{\;}pyeong{\;}={\;}3.3m^2).$. The average number of students in a laboratory class was 46.93 at four-year colleges, while the number ranged from 40 to 240 in junior colleges. The average floor space of laboratories at junior colleges, however, was almost the same as those, of laboratories at four-year colleges. 2. The Actual State of Laboratory Facilities and Equipment Laboratory equipment possessed by nursing schools at colleges and universities showed a very wide distribution by type, but most of it does not meet government standards according to applicable regulations while some types of equipment are in excess supply. The same is true of junior colleges. where laboratory equipment should meet a different set of government standards specifically established for junior colleges. Closer investigation is called for with regard to those types of equipment which are in short supply in more than 80 percent of colleges and universities. As for the types of equipment in excess supply, investigation should be carried out to determine whether they are really needed in large quantities or should be installed. In many cases, it would appear that unnecessary equipment is procured, even if it is already obsolete, merely for the sake of holding a seemingly impressive armamentarium. 3. Basic Science Laboratory Equipment Among the 39 institutions, five four-year colleges were found to possess equipment for basic science. Only one type of essential equipment, tele-thermometers, and only two types of recommended equipment, rotators and dip chambers, were installed in sufficient numbers to meet the standards. All junior colleges failed to meet the standards in all of equipment categories. Overall, nursing schools at all of the various institutions were found to be below per in terms of laboratory equipment. 4. Required Equipment In response to the question concerning which type of equipment was most needed and not currently in possession, cardiopulmonary resuscitation (CPR) machines and electrocardiogram (ECG) monitors topped the list with four respondents each, followed by measuring equipment. 5. Management of Laboratory Equipment According to the survey, the professors in charge of clinical training and teaching assistants are responsible for management of the laboratory at nursing schools at all colleges and universities, whereas the chief of the general affairs section or chairman of the nursing department manages the laboratory at junior colleges. This suggests that the administrative systems are more or less different. According to the above results, laboratory training could be defined as a process by which nursing students pick up many of the nursing skills necessary to become fully qualified nurses. Laboratory training should therefore be carefully planned to provide students with high levels of hands-on experience so that they can effectively handle problems and emergencies in actual situations. All nursing students should therefore be thoroughly drilled and given as much on-the-job experience as possible. In this regard, there is clearly a need to update the equipment criteria as demanded by society's present situation rather than just filling laboratory equipment quotas according to the current criteria.

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