This study is to check waterproof by number of twists of fire hose and measure the first waterproof time to analyze the relationship between twists of fire hose and first waterproof time and waterproof by position of twists so as to suggest the efficient plan to prevent twists of fire hose. Ordinary fire hose did not make waterproof in case that position of twists was near the nozzle with twists 5 times or more, while anti-twist fire hose had no problem for waterproof only with delayed time. Like ordinary fire hose, anti-twist fire hose also showed the tendency to increase the waterproof time in proportion to the number of twists. In case that the position of twists was near waterproof port even with 10 times of twists in anti-twist fire hose, the first waterproof time was increase by 0.63 seconds on average without any problem for waterproof, which was somewhat faster than that in ordinary fire hose. With respect to the position of twists, waterproof of anti-twist fire hose was affected more as the number of twists was increased more near the nozzle rather than near the waterproof port, like ordinary fire hose. In summary, anti-twist fire hose equipped with anti-twist tool at the middle connection port and the nozzle showed a good waterproof performance with delayed waterproof time regardless of number of twists, as a solution for the twist problem of ordinary fire hose.
본 논문에서는 CAD 시스템에서 사용하는 NURBS 기저함수를 사용하는 아이소-지오메트릭 해석(Isogeometric analysis) 방법과 기 하학적으로 엄밀한 빔 모델링(geometrically exact beam model)을 활용하여 회전과 병진 운동이 결합된 새로운 형태의 메타물질 (metamaterial)에 대한 해석을 진행하였다. 이차원 셀 구조는 자유형상변환(Free-form deformation) 법과 적절한 내삽법(Interpolation) 을 통해 원통 위에 입혀졌다. 원통의 치수와 셀 개수가 비틀림 각도에 미치는 영향이 매개변수 연구(parametric study)를 통해 확인되었 다. 비틀림과 병진 운동이 결합된 구조의 메커니즘에 대해 수치 예제를 통해 알아보았다.
We demonstrate the subsurface origin of the observed evolution of the solar active region 10930 (AR10930) associated with merging and breakup of magnetic polarity regions at the solar surface. We performed a magnetohydrodynamic simulation of an emerging magnetic flux tube whose field-line twist is asymmetrically distributed along its axis, which is a key to merging and fragmentation in this active region. While emerging into the surface, the flux tube is subjected to partial splitting of its weakly twisted portion, forming separate polarity regions at the solar surface. As emergence proceeds, these separate polarity regions start to merge and then break up, while in the corona sigmoidal structures form and a solar eruption occurs. We discuss what physical processes could be involved in the characteristic evolution of an active region magnetic field that leads to the formation of a sunspot surrounded by satellite polarity regions.
목 적:간자기공명영상검사에서 역동적 영상의 view sharing 기법은 시간을 단축하며 적당한 동맥기영상을 얻을수 있지만 모든 phase로 데이터를 공유하기 때문에 호흡의 움직임에 영향을 받아 움직임에 의한 인공물(motion artifact)를 많이 발생시킨다. 이러한 문제점을 해결하기 위해 view sharing을 이용하지 않는 independent-VIBE와의 삼중동맥기 영상을 비교하여 independent-VIBE 기법의 유효성을 알아보고자 한다.
대상 및 방법:본연구는 2017년 1월부터 2019년 1월까지 간자기공명영상을 재검사한 환자 29명과 지원자 30명을 대상으로 하였다. 장비는 Skyra Elf(3.0T)를 사용하였으며 32채널 spine 코일과 30채널 body 코일을 이용하여 간자기공명영상 역동적 조영증강에서 TWIST-VIBE와 independent-VIBE을 이용하여 검사한 환자를 비교 분석하여 재검사비율을 비교하였으며, 자원자 30명에게 간자기공명영상검사시 TWIST-VIBE와 independent-VIBE 시 3 phase로 나누어 총 18초 중 9초 호흡 정지 후 나머지는 숨을 쉬게 하여 영상에 임의의 움직임을 만들어 표준편차(SD), 변동계수(CoV), 영상의 질를 비교, 분석하였다.
결 과:재검사환자 29명 중 TWIST-VIBE 환자 24건(1.8%), independent-VIBE 환자 5건(0.5%)으로 3.6배의 차이가 나타 났으며 p=0.003으로 통계적으로 유의한 차이를 보였다. 지원자 30명을 대상으로 표준편차를 비교한 결과 TWIST-VIBE에서 각 phase는 15.58±4.24, 16.87±4.32, 19.91±5.35이며 independent-VIBE에서 8.09±2.49, 8.24±2.23, 8.68±2.55 이었다. 변동계수는 TWIST-VIBE에서 각 phase는 15.07±4.14, 15.92±3.43, 18.64±3.43이며 independent-VIBE 는 9.64±2.40, 9.93±2.23, 1057±3.11이었다. p<0.05로 시간 변화에 따른 각 phase 별 표준편차(SD), 변동계수(CoV) 변화치 및 각 집단별 phase의 표준편차(SD), 변동계수(CoV) 수치가 통계적으로 유의한 차이를 보였다. 정성적 평가에서 두 집단의 모든 phase에서 점수의 차이가 p<0.05로 통계적으로 유의한 차이를 보였다.
결 론:호흡이 일정치 못한 환자의 자기공명영상검사에서 independent-VIBE를 이용하여 획득한 결과 view sharing을 이용한 TWIST-VIBE를 이용하여 획득한 영상을 비교하였을 때 independent-VIBE를 이용한 영상에서 움직임에 의한 인 공물(motion artifact)의 영향이 적은 것으로 나타났다. 이에 본연구는 호흡이 불규칙한 환자의 삼중동맥기영상을 획득하는 방법으로 independent-VIBE 검사가 유용할 것으로 사료된다.
As the property of the aluminum foam with porosity, the effect of impact is distributed through the distortion of each lattice like honeycomb at impact. So, this porous aluminum foam is widely used at the crash box or the impact absorber guard rail to prevent the damage. In addition, there is a property of low weight by the chemical bonding using the adhesive. As this study investigates the distortion property of the aluminum foam bonded with adhesive, the fracture property and the stress distribution of the bonded interface are examined. The specimen thicknesses are 25, 35, 45, 55 and 65 mm. And the torsional moments corresponding to 100, 200 and 300 J are applied at one side of bonded aluminum foam. The mechanical behaviors at the bonded interface and the fixed part are also investigated. It can be seen that the minimum specimen thickness must become 55 mm and over in order to maintain the bonding force due to the applied impact energy. The analysis result of this study at the bonded interface effected on impact can be effectively applied into the safe design of the structure with the bonded aluminum foam.
The object of this study is concerned about the optimal design of the supporting frame in a twist screen. Twist screen is widely used for grading and screening materials in the fields such as coal-selecting, mining-selecting, building materials, electrical power and chemical industry, etc. It is composed of base, supporting frame, vibrator, screen, spring, trough, clamp and etc. Especially, supporting frame in twist screen are stressed by high load, mostly it is shock-type loads. Nevertheless, design of base is dependent on experience, and it will cause reliability reduction and cost increase. The supporting plate is composed by the upper plate, the bracket and etc. This research purpose is to propose and verify a method to achieve higher product quality, lower costs, and far less physical testing. In this study, design parameters used for optimization are the upper plate thickness(8㎜, 10㎜, 12㎜) and the bracket thickness(8㎜, 10㎜, 12㎜) in the supporting frame. The result showed that base weight reduced to maximum 25.8% when compared with the current twist screen.
Metastasis consists of complex cascades and a lot of factors are involved in each step of metastasis. In recent studies, the role of epithelial-mesenchymal transition (EMT) in metastasis is suggested. EMT has a feature of epithelial cells conversing into mesenchymal cells morphologically and phenotypically, is a characteristic of malignant and metastatic cells in most cancer. The mesenchymal cells usually show more malignant phenotype, including invasion and metastasis. EMT can play an important role in metastasis of oral squamous cell carcinoma (OSCC). Although the role of Snail, slug, other transcriptional factors and E-cadherin are well known in human cancers, there are a few studies on N-cadherin and Twist expression in OSCC. The present study was aimed to analyze the expression of N-cadherin and Twist protein in OSCC from Korean patients. The immunohistochemical stain was performed using 58 primary OSCCs and 6 metastatic OSCCs, and the correlation between the expression of these proteins and clinicopathological parameters of OSCC patients was analyzed. The expression rate of high expression of N-cadherin was observed in 70.4% and Twist in 87.3% of OSCC. The expression of N-cadherin in metastatic OSCC increased than in corresponding primary OSCC (p<0.05). The spearman correlation coefficiency between N-cadherin and Twist was calculated as 0.228. The clinical factors such as lymph node metastasis and survival showed statistically significant correlation between N-cadherin expression. The expression of Twist was correlated with recurrence. In conclusion, the authors suggest that N-cadherin may play an important role in malignant behaviour of OSCC and can be considered as prognostic indicator of OSCC.
Increasing needs for light weight and high safety in modern automobiles induced the wide application of high strength steels in automotive body structures. The main difficulty in the forming of sheet metal parts with high strength steel is the large amount of springback including sidewall curl and twist in channel shaped member parts. Among these shape defects, twist occurs frequently and requires numerous reworks on the dies compensate the shape deviation. But until now, it seems to be no effective method to reduce the twist in forming processes. In this study, a new forming process to reduce the twist deformation during the forming of automotive structural member was suggested. This method consists of forming and restriking of embosses on the sidewall around the stretch flanging area of the part. and was applied in the forming process design of an automotive front side inner member with high strength steel. To evaluate the effectiveness of the method, springback analysis using Pamstampa™ was done. Through the analysis results, the suggested method proven to be effective in twist reduction of channel shaped parts with stretch flanging area.
We investigated the effects of trunk twist on postural stability during manually handling flat ties. Ten male subjects participated in this study. While handling 5kgf and 10kgf bundles of flat ties respectively, their centers of pressure (COPs) were measu
식품 산업 가공 공정에 다양하게 적용되는 진동 선별기(twist screen)의 구조를 변경하고 그 효율을 분석하기 위하여 위와 같은 실험을 실시하였다. 시료 공급 시 스크린 외곽의 프레임을 따라 선별되지 못하고 빠지는 입자를 방지하기 위하여 스크린 프레임에 dam을 설치하였으며, 스크린 중앙에서 공급되는 시료가 진동에 의하여 중앙에서 외곽으로 빠르게 이동하며 입자층을 이루어 선별 효율이 저하되는 것을 방지하기 위하여 스크린에 나선형 구조물을 설치하였다.
진동 선별기는 직경 1,200 mm와 직경 1,500 mm를 사용하였으며 스크린은 mesh 24이고 선경 0.12 mm인 표준망을 적용하였고 진동 모터는 60 Hz로 운전하였으며 자기 진동 이송기는 주파수 게이지 8과 10으로 각각 실험한 결과 다음과 같은 결론을 도출하였다.
진동 선별기 직경 1,200 mm인 경우 일반형은 처리 용량 24 kg/hr, 처리 분율은 4.72%이었고 스크린 프레임에 dam을 설치하고 스크린에 나선형 구조물을 설치한 경우에는 처리 용량이 22.8 kg/hr, 처리 분율 8.05%이었다. 구조물의 설치로 처리 용량은 다소 감소하였으나 처리 분율은 1.7배 증가하여 선별 효율이 상당히 높아졌다는 것을 알 수 있었다.
진동 선별기 직경 1,500 mm의 경우 일반형의 처리용량은 43.32 kg/hr으로 직경 1,200 mm인 경우와 비교하여 처리용량은 1.8배 증가하였으나 처리 분율은 2.37%로 처리용량에 비하여 낮게 나타났다. 처리 1의 입도를 분석한 결과 스크린에 의하여 선별될 세립의 입자가 비선별 처리물에서 발견되고 있다. 스크린의 직경이 넓어져서 처리 용량이 증가하였으나 공급 속도를 높여 공급량이 많아지므로 입자들의 망 접촉 시간이 감소하고 입자의 층 현상이 심화되어 처리 효율이 감소하고 세립의 입자 선별이 완벽하게 이루어지지 않았다는 것을 알 수 있었다.
선별기 직경 1,500 mm에 screen frame dam을 설치한 경우 처리 용량 43.14 kg/hr로 일반형과 비슷하며 처리 분율은 3.25%로 매우 증가되었다. 입자들의 층현상이 심화된 ∅1500에서 스크린의 프레임에 dam을 설치함으로써 스크린 프레임으로 빠져나가 망에 체류 시간이 단축되는 것이 방지되며 프레임을 따라 입자층이 형성되어 스크린과 접촉이 불가능하였던 입자들이 dam에 의하여 스크린 안쪽에서 이동되므로 거의 동일한 처리 용량에서도 처리 효율 증가가 뚜렷하게 구분되었다고 할 수 있다.
Screen frame dam과 나선형 구조물을 모두 설치한 경우 처리 용량은 39.04 kg/hr로 다소 감소되었으나 처리 분율은 6.77%로 직경 1,500 mm의 진동 스크린에서 일반형 구조시보다 3배, frame dam만 설치된 경우보다 2배의 증가를 보였다. 비선별 처리물인 처리 1의 시료를 입도분석한 결과 선별 처리되지 못한 세립의 입자를 전혀 발견할 수 없었다. 이와 같은 결과는 frame dam을 설치하여도 입자들이 빠르게 휩쓸려 스크린의 외곽으로 이동하여 망과 접촉 시간이 단축되며 층을 이루어 입자간의 간섭에 의해 선별 효과가 감소되는 것을 나선형 구조물에 의하여 방지함으로써 체류 시간을 증가시키고 입자층을 분산시켜 선별 효율을 증가시킬 수 있었다.
나선형 구조물 설치시 처리 용량은 다소 감소되는 경향을 보이나 처리 분율이 3배까지 차이를 나타나며 이는 공급 속도가 빠를수록 처리 용량이 많을수록 영향이 크다는 것을 알 수 있었다.
Recent studies show the importance of understanding three-dimensional magnetic reconnect ion on the solar surface. For this purpose, I consider non-coplanar magnetic reconnection, a simple case of three-dimensional reconnect ion driven by a collision of two straight flux tubes which are not on the same plane initially. The relative angle e between the two tubes characterizes such reconnection, and can be regarded as a measure of magnetic shear. The observable characteristics of non-coplanar reconnection are compared between the two cases of small and large angles. An important feature of the non-coplanar reconnect ion is that magnetic twist can be produced via the re-ordering of field lines. This is a consequence of the conversion of mutual helicity into self helicities by reconnection. It is shown that the principle of energy conservation when combined with the production of magnetic twist puts a low limit on the relative angle between two flux tubes for reconnect ion to occur. I provide several observations supporting the magnetic twist generation by reconnection, and discuss its physical implications for the origin of magnetic twist on the solar surface and the problem of coronal heating.
This study was conducted to investigate the effect of shoot twist on fruitfulness and fruit quality of ‘Campbell Early’ grapevine. Proper pruning and training are essential to produce a good yield of high-quality fruit and to maintain the balance between vegetative growth and fruiting. The most common problem in spur-pruned ‘Campbell Early’ cultivar is that vigorous buds has low fruitfulness and thereby the shoot become more vigorous the following spring because of lower crop load. Therefore, shoot twists in very vigorous ‘Campbell Early’ canes (above 10.0 ㎜) were performed on the third nodes and the 7 th nodes of each shoot at 7 days before bloom and full bloom, respectively. Sprouting date, blooming date were not significantly different among the treatments while, harvesting date was delayed approximately 3 days. However, number of berries per cluster, cluster weight and fruitfulness were significantly higher in the shoot twist treatment on the third nodes than the control that was topping alone. Combination treatments of shoot twist and topping had an additive effect on increasing cluster weight resulting in higher increase of yield by 12.1 ㎏ per vine. These results indicated that the shoot twist on very vigorous canes of ‘Campbell Early’ grapevine for well fruitfulness seemed to be very effective.