• Journal of Korean Academy of Oral and Maxillofacial Radiology
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• v.14 no.1
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• pp.7-16
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• 1984

구강점막 각 부위의 지각신경의 특징은 근년 생리학적 연구의 중요한 대상이 되어왔다. 일반적으로 생리학적 기능은 연령과 더불어 감소된다는 소견이 구강점막에서도 적용된다고 하나 이에대한 형태학적 지견을 중심으로 볼 때 그러한 감소가 순전한 기능저하의 결과인지 혹은 지각신경의 해부학적 형태변화에 의한 것인지에 대해서는 분명하게 알려진 것이 없다. 본 논문은 Spraque-Dawely와 Fischer 344 두종의 숫자 20마리를 이용하여 각종을 6개월과 30개월의 연령으로 2군으로 나누어서 연령에 따른 구강점막내 신경섬유와 신경종말의 전자현미경적 특성의 변환을 관찰하고, 단위면적당 분포하고 있는 신경요소의 변화를 정량해 보았던바 다음과 같은 결과를 얻었다. 1. 구강점막에 분포하는 신경섬유와 신경종말의 전자현미경적 형태에 있어서는 젊은백서와 늙은백서 사이에 인정할 만한 질적 차이가 없었다. 2. 연령증가에 따라 구강점막의 상피내 간격에 존재하는 신경요소는 전반적으로 감소하였다. 3. 이와 같은 감소는 신경섬유보다 신경종말의 경우 더욱 현저하게 나타났다.

• Journal of the Korean Recycled Construction Resources Institute
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• v.7 no.4
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• pp.438-444
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• 2019

In this study, the effect of polypropylene fiber on the freeze-thaw damage of mortar was evaluated experimentally. The effects of the reinforcing of polypropylene fiber on the compressive and bending performance of mortar after 300 cycles of freeze-thaw test were evaluated by comparing the normal mortar and the mortar with polyvinyl alcohol fiber. In addition, the mass loss, relative dynamic elastic modulus, and cumulated pore volume of mortar were measured by each cycle of freeze-thaw test. As a result, it was confirmed that the fiber reinforced mortar, regardless of the fiber type, was effective not only in maintaining the performance of the compressive strength and the bending strength but also suppressing the mass loss after the freeze-thaw test of 300 cycles. Meanwhile, it was confirmed that not only polyvinyl alcohol fibers but also polypropylene fibers can effectively act to suppress the damage of the mortar by freeze-thaw. However, in order to improve the freeze-thaw resistance of mortar mixed with polypropylene fiber, it is necessary to increase the bonding performance with the cement matrix which can be expected from polyvinyl alcohol fiber.

• Journal of the Korea institute for structural maintenance and inspection
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• v.24 no.5
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• pp.95-102
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• 2020

For the purpose of developing a PE fiber-reinforced highly ductile cementitious composite having high tensile strain capacity more than 2% under the condition of containing aggregates with large particle size, this study investigated the tensile behavior of composites according to the particle size and distribution of aggregates in the composite. Compared with the mixture containing silica sand of which particle size is less than 0.6 mm, mixtures containing river sand and/or gravel with the maximum particle size of 2.36 mm, 4.75 mm, 5.6 mm, 6.7 mm were considered in the experimental design. The particle size distributions of aggregates were adjusted for the optimized distribution curves obtained from modified A&A model by blending different sizes of aggregates. All the mixtures presented clear strain-hardening behavior in the direct tensile tests. The mixtures with the blended aggregates to meet the optimum curves of aggregate size distributions showed higher tensile strain capacity than the mixture with silica sand. It was also found that the tensile strain capacity was improved as the maximum size of aggregate increased which resulted in wider particle size distribution. The mixtures with the maximum size of 5.6 mm and 6.7 mm presented very high tensile strain capacities of 4.83% and 5.89%, respectively. This study demonstrated that it was possible to use coarse aggregates in manufacturing highly ductile fiber-reinforced cementitous composite by adjusting the particle size distribution.

• Applied Chemistry for Engineering
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• v.18 no.3
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• pp.205-212
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• 2007

In this work, polyacrylonitrile (PAN) fiber was prepared by electrospinning methods from dimethyl formamide solutions with various conditions, such as 8~20 kV applied voltage, 5~15 wt% PAN concentration, and 15 cm tip-to-collector distance (TCD). The nanofibers were stabilized by oxidation at $250^{\circ}C$ for 1 h, and then subsequently carbonized at $800{\sim}1000^{\circ}C$ for 1 h. The structured characteristics of the nanofibers before and after carbonization were studied by Fourier transform infrared spectroscopy. The resulting diameter distribution and morphologies of the nanofiber were evaluated by scanning electron microscope analysis. The electrochemical behaviors of the nanofiber were observed by cyclic voltammetry tests. From the results, the diameter of electrospinning nanofibers was predominantly influenced by the concentration of polymer solution and the applied voltage. The average diameter of the fibers was decreased with increasing the polymer concentration up to 10wt%. It was also found that the nanofibers with uniform diameter distribution and fine diameter could be achieved at 15kV input voltage and 15 cm TCD.

• Composites Research
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• v.12 no.2
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• pp.10-25
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• 1999

A new evaluation method for the interfacial properties of fibrous composites based on a fragmentation technique is proposed by using the gradual multi-fiber composite, in which the inter-fiber spacing is gradually changed. The results showed that as the inter-fiber distance increased, the aspect ratio of broken fibers decreased while the interfacial shear strength between the fiber and matrix increased. When the reciprocal of the inter-fiber destance was taken for the above relations, both the aspect ratio and interfacial shear strength showed a saturated value. This means that the gradual multi-fiber composite indicates an upper bound in aspect ratio and an upper bound in interfacial shear strength. It was concluded that this fragmentation test could be a new method for composite evaluation, since reducing a difference between these two bounds is effective for composite strengthening. In addition an elastoplastic finite element analysis was carried out to relate the above results with fiber stress a distribution around fiber breaks. It was proved that the bound obtained in the gradual multi-fiber composite test is closely related to stress concentrations caused by a group of multi-fiber breaks.

• Proceedings of the Korean Fiber Society Conference
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• 1998.10a
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• pp.469-472
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• 1998

상업적으로 유용한 대부분의 합성고분자막들은 상전환법(phase inversion process)이라는 방법에 의해서 제조된다. 이 제조공정에서는 단일 고분자(homogeneous polymer)용액에 존재하는 용매를 비용매와 교환함으로써 액체로부터 고체로 상이 전환된다. 그리고 pore의 크기나 pore의 크기분포와 같은 막의 구조를 결정하는 요인은 일반적으로 용질의 입자크기 또는 분자크기 및 화학적 성질에 기인한다[1-3]. (중략)

• Journal of the Economic Geographical Society of Korea
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• v.11 no.2
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• pp.251-271
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• 2008

Maquiladora industries have grown due to the decrease in labor costs caused by Mexico's economic crisis and the increase in possibility of Mexico's advance into North American markets caused by the NAFTA that come into effect since the 1980s and 1990s. Early Marquiladora industries have started to be located in the Northern borders of Mexico using young-female labor forces centered on the textile and electronic part industries. However, after the 1980s, the port soared, and the regional range of Maquiladora industries has also enlarged to 25 states. The most important regions of Maquiladora industries in Mexico are Chihuahua and Baja California and their cities are Ciudad Juares and Tijuana. Maquiladora industries had grown in terms of the cost of product and the employment until the end of the 1990s. However, Maquiladora industries have decreased in the cost of product and the employment since the 2000s. The regional range of Maquiladora industries has enlarged into the entire of Mexico, but most of Maquilador industries is still located in Northern border regions centered on six states. The textile industry is a representative one of Maquiladora industries and the early Maquilador industries have been focused on the textile industry. Thus, the textile industry in Maquiladora shows the same pattern as any other industries in Mexico. However, machinery and electronic part industries have been concentrated on the Northern border states and existing manufacturing zones. In terms of the change in employment by industry, machinery and electronic part industries occupied most high employment proportion and the textile industry sector was the next. The distinguished point is that service industries are growing.

• Fire Science and Engineering
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• v.13 no.1
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• pp.3-10
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• 1999

We had investigated combustion properties of natural textile dusts. Decomposition properles of natural textile dusts scavenged by precipitator of spinning factoη were investigated using D DSC(Differential Scanning Calorimeter) and TGA(Thermogravimetric Analysis) by temperature c changes. Combustion pro야rties of natural textile according to size distribution and amount were c checked as temperature variation according to time using spontan$\infty$us ignition apparatus. M Moreover, combustion properties with blowing or without blowing condition were checked in order to investigate combustion prope$\pi$ies in spontaneous ignition apparatus according to flow c condition of air. As results of thermal analyses, increase in r머sing tern야:rature causes initial smold벼ng t temperature to move towards low temperature section 뻐d i띠디떠 smoldering temperature was d de$\sigma$eased more remarkably in atmosphere than in inert gas and that condition allowed heating v value to increase considerably. In addition, as amount and size distribution of natural textile d dusts were increased, i띠ti머 smoldering temperature was lowered. All of combustion forms were s smoldering combustion. Initial smold밍ing temperature was low more slightly with blowing c condition than without blowing condition in sp$\alpha$ltaneoUS ignition apparatus, which condition m made heatim;!; value high.

• Composites Research
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• v.29 no.5
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• pp.256-261
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• 2016

In this work, we have prepared the filter papers with the pitch-based activated carbon fibers and the binder fibers using wet-laid process. The influence of the binder fiber on the porosity of the filter papers has been investigated by using nitrogen adsorption isotherms at 77 K and a scanning electron microscope (SEM). As a result, the specific surface area has increased with an decrease in the content of binder fiber. It has been shown that the optimum ratio of pitch-based activated carbon fibers and the binder fibers is 70:30, resulting in high porosity, excellent bonding strength, large specific surface area ($650.4m^2/g$) and high noxious gas removal efficiency (86.9%). In addition, it has been observed that the mean pore size distribution of the fiber papers has not been affected by the binder fiber.

• Journal of the Korea institute for structural maintenance and inspection
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• v.10 no.6
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• pp.154-163
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• 2006

This paper presents a nonlinear analysis method for the reinforced concrete beams strengthened by the external bonding of high strength, lightweight fiber sheets on the tension face of the beams. The method is based on the results of experimental studies. The experimental study involved tensile tests of 120 specimens to evaluate the tensile properties of fiber sheets(carbon, glass, and aramid fiber) and bending tests of 75 beams strengthened with various types of fiber sheets to evaluate the flexural capacities. Based on these experimental results, reasonable rupture strains of the fiber sheets were estimated. The nonlinear flexural analysis considered nonlinear flexural stresses as compressive and tensile stresses of concrete, load-deflection curves, and rupture strains of fiber sheets. The nonlinear flexural analysis accurately predicts the load-deflection response and the flexural behavior of the retrofitted beams.