Prazosin의 항고혈압 효과에 대한 임상적 관찰

서세웅,이균태,김연호,조성락,신영우,신영기 최신의학사 1984 最新醫學 Vol.27 No.8

< 전시-P-43 > A Study on the Thermal Properties of Nanoclay and Carbon Fiber Reinforced Recycled WPCs

( Young-rok Seo ),( Sang-u Bae ),( Jae-gyoung Gwon ),( Sun-young Lee ),( Birm-june Kim ) 한국목재공학회 2019 한국목재공학회 학술발표논문집 Vol.2019 No.1

Waste wood plastic composites (W-WPCs), one of the growing waste resources in our daily lives, must be identified as a sustainable resource through recycling. However, in general, waste resources that have been exposed to outdoor conditions for a long time have deteriorated thermal properties. Thus, this study intended to improve the thermal properties of W-WPCs by incorporating hybrid functional fillers. Nanoclay (NC) and carbon fiber (CF) were used as fillers for the preparation of recycled WPCs (R-WPCs) based on W-WPCs. NC is being applied in various fields because it can achieve a balanced performance even if only a small amount is used. CF is increasingly available in advanced engineering materials because its performance is maintained at high temperatures. R-WPCs were prepared with different proportions of W-WPCs, NC and CF, and then melt-compounded. Thermal properties of R-WPCs were analyzed by thermogravimetric analysis (TGA) and differential scanning calorimetry (DSC). TGA results showed that the thermal stabilities of the R-WPCs were improved as the amount of fillers (NC and CF) increased. This is because the diffusion delay effect of the thermal decomposition products of NC and the heat resistance of CF exerted synergistic effect. In DSC results, melting point and cold crystallization temperature showed no difference between R-WPCs. Melting enthalpy is an important parameter since its magnitude is directly proportional to the overall level of the crystallinity possessed by the polymer. NC and CF used in this study are masterbatches containing 50% of polypropylene and 50% of fillers. As the amounts of fillers (NC and CF) increased, the amount of PP increased accordingly. As a result, the crystallinity values were increased. Also, the crystallization behavior of the composites is affected by amount and dispersion of fillers. Thereby, as the NC and CF were well dispersed in the R-WPCs, the hybrid filled composites showed the improvements of nucleating effect and crystallinity values. Therefore, the results of this study suggest that the hybrid incorporation of nano and engineering fillers (NC and CF) played an important role in improving the thermal properties of R-WPCs.

< 전시-P-42 > A Study on the Mechanical and Morphological Properties of Nanoclay and Carbon Fiber Reinforced Recycled WPCs

( Young-rok Seo ),( Sang-u Bae ),( Jae-gyoung Gwon ),( Sun-young Lee ),( Birm-june Kim ) 한국목재공학회 2019 한국목재공학회 학술발표논문집 Vol.2019 No.1

Wood-plastic composites (WPCs) are a kind of composite material combining wood-based elements with plastics. Currently, WPCs are mainly used for exterior decking, fencing and railing, roofing, and patio furniture. Hence, WPC products are inevitably exposed to various outdoor conditions leading to degradation. Somewhat degraded WPCs are regarded as waste WPCs (W-WPCs) and there is a need to recycle the W-WPCs. Since the W-WPCs have deteriorated properties, to manufacture recycled WPCs (R-WPCs) having reliable performance, nanoclay (NC) and carbon fiber (CF) were selected as functional fillers. NC imparts balanced performance to filled composites by controlling dispersibility even if only a small amount is used. CF has been extensively used as a reinforcing filler in advanced engineered composites due to its low density and excellent performances. R-WPCs were prepared by adding different proportions of NC and CF (50/50 masterbatch pellets) into W-WPC granules. Composite specimens used in this study were fabricated by melt compounding and injection molding processing. Mechanical properties (impact, flexural, and tensile properties) of R-WPCs were investigated by universal testing machine (UTM) and impact tester. Morphological properties were observed by scanning electron microscope (SEM). The impact, flexural and tensile strength results showed that the strength improved by incorporation of NC and CF. This is because CF had a long fiber length with high aspect ratio and the surface sizing of CF enhanced the interfacial bonding between the polymer matrix and CF. But, the impact strength decreased with the incorporation of more than 5wt.% NC. This indicates that the incorporation of an appropriate amount of NC showed better toughening effects with CF, but a large amount of NC incorporation resulted in fracture failure due to aggregation of NC. The flexural and tensile modulus were improved with the incorporation of CF, but were not significantly changed by incorporation of NC. This is because CF has strong rigidity and increase the longitudinal fiber orientation in R-WPCs, while NC causes aggregations and weakens the interfacial bonding between the polymer matrix and NC. SEM images showed good adhesions between the polymer matrix and fillers. As a results of this study, the incorporation of appropriate functional fillers (NC and CF) can be expected to improve the performances of R-WPCs.

< 전시-P-25 > A study on the Mechanical and Morphological Properties of Glass Fiber and Nanoclay Reinforced Recycled WPCs

( Young-rok Seo ),( Sang-u Bae ),( Jae-gyoung Gwon ),( Sun-young Lee ),( Birm-june Kim ) 한국목재공학회 2018 한국목재공학회 학술발표논문집 Vol.2018 No.2

< 전시-P-41 > Effect of Nanoclay and Glass Fiber on the Water Absorption and X-Ray Diffraction Properties of Recycled WPCs

( Young-rok Seo ),( Sang-u Bae ),( Jae-gyoung Gwon ),( Sun-young Lee ),( Birm-june Kim ) 한국목재공학회 2019 한국목재공학회 학술발표논문집 Vol.2019 No.1

Waste wood plastic composites (W-WPCs), which is regarded as a waste materials in everyday life, has deteriorated water absorption properties due to degradation for a long time. Since WPCs are generally used as building materials such as decking, flooring, and outdoor facilities, high moisture resistance is required. Hence, it is necessary to improve the water absorption properties of composites by incorporating functional fillers (i.e., nanoclay and glass fiber) in order to manufacture recycled WPCs (R-WPCs) using W-WPCs. As a filler, nanoclay (NC) can exert a high-performance effect by using only a small amount of material, and acts as a barrier when moisture penetrates into the material, thereby delaying water absorption. As another filler, glass fiber (GF) is preferred as a fibrous engineering material because it has low cost, high aspect ratio, excellent strength, and stiffness. In this study, R-WPCs were prepared with different proportions of W-WPCs, NC and GF. The composite specimens were prepared by melt compounding and injection molding processing. In order to evaluate the water absorption properties of the prepared R-WPCs, water absorption (WA) and thickness swelling (TS) were periodically measured. Also, the x-ray diffraction (XRD) properties were analyzed to confirm the intercalation of NC in composites. GF showed little effect on the WA and TS of R-WPCs. On the other hand, as the content of NC in R-WPCs increased, the WA and TS rate decreased. This is due to the presence of NC in the R-WPCs interfered with the diffusion path of water molecules into the interior, thereby acting as a barrier to prevent water absorption. The XRD results confirmed that NC was appropriately intercalated in the R-WPCs and could be partially exfoliated when incorporated with GF. As a result of this study, it can be said that hybrid R-WPCs filled with NC and GF can improve deteriorated performances, especially water absorption properties.

< 전시-P-40 > A study on the Thermal Properties of Wood Flour/SEBS-g-MAH/Nano Clay-filled Polylactic Acid Composites

( Young-rok Seo ),( Sang-u Bae ),( Jae-kyung Cha ),( Birm-june Kim ) 한국목재공학회 2018 한국목재공학회 학술발표논문집 Vol.2018 No.1

Recently, as interest in environmentally friendly materials has increased, studies on the development of new materials using various biodegradable plastics have been conducted. Poly(lactic acid)(PLA), one of the biodegradable plastics, synthesized from renewable resources has become popular due to their sustainability, biodegradability, and transparency. In this study, PLA composites were prepared by incorporating wood flour(WF), maleic anhydride grafted styrene-ethylene/butylene-styrene copolymer(SEBS-g-MAH), and nano clay. SEBS-g-MAH and nano clay were mixed at the same ratio and used as a master batch. The materials used in the study were first compounded with a twin screw extruder and then pelletized using a pelletizer. Thermal properties of PLA composites were analyzed by thermogravimetric analysis(TGA) and differential scanning calorimetry(DSC). GA results showed that the thermal stability of PLA/WF composite was reduced compared to PLA only due to the relatively low thermal decomposition temperature of WF. However, the thermal stabilities of the PLA/WF composites were improved in the presence of SEBS-g-MAH/nano clay master batch. This is because the SEBS-g-MAH having thermally stable styrene component binds to the WF surface and forms strong interfacial bondings between WF and PLA matrix. In DSC results of the PLA/WF composites, decreases in glass transition temperatures were observed. It is considered that the addition of WF interferes with the interaction of the PLA polymer chain, which increases the fluidity of the polymer. Besides, the crystallinity of PLA composites decreased with the addition of SEBS-g-MAH/nano clay master batch. This suggests that the presence of SEBS-g-MAH affects the efficiency of nucleation in the crystallization of PLA. SEBS-g-MAH, therefore, effectively improved the thermal properties of PLA/WF composites and it could be used as an promising additive in PLA/WF composites.

< 전시-P-44 > Effect of Nanoclay and Carbon Fiber on the Water Absorption and X-Ray Diffraction Properties of Recycled WPCs

( Young-rok Seo ),( Sang-u Bae ),( Jae-gyoung Gwon ),( Sun-young Lee ),( Birm-june Kim ) 한국목재공학회 2019 한국목재공학회 학술발표논문집 Vol.2019 No.1

Since the waste resources in our daily lives have an impact on environmental pollution, research on sustainable resources through recycling has attracted worldwide attention. So far, research on the recycling of wood or plastic has actively conducted, but there is little research on the recycling of waste wood plastic composites (W-WPCs). W-WPCs was deteriorated in performance, especially, water absorption. Therefore, in this study, various recycled WPCs (R-WPCs) based on W-WPCs was manufactured using functional fillers to improve performances. R-WPCs were prepared with different proportions of W-WPCs, nanoclay (NC) and carbon fiber (CF). The composite specimens used in this study were prepared by melt compounding and injection molding processing. The water absorption properties of R-WPCs were measured by water absorption and thickness swelling rate after immersion in distilled water for a certain period of time. X-ray diffraction (XRD) properties were analyzed to confirm the intercalation of NC in the composite matrix. In water absorption property results, CF filled R-WPCs showed very low water absorption rate and percentage. As the content of NC in R-WPCs increased, the water absorption decreased. This means the presence of high aspect ratio nano filler can create tortuous pathway for water molecules to diffuse into the composites. Similar trends were observed in thickness swelling properties as well. This suggests that the presence of NC in R-WPCs prevents the expansion of thickness caused by water and gives a dimensional stability to R-WPCs. In the XRD results, patterns of R-WPCs filled with both NC and CF showed broader peaks compared to R-WPCs without CF. This probably indicates that NC retains its original crystalline structure and shows a similar peak in the NC filled R-WPCs, but it is partially exfoliated in the NC/CF filled R-WPCs due to the presence of CF. Therefore, this study suggests that NC and CF are suitable functional fillers for the recycling of W-WPCs with deteriorated performances.

< 전시-P-39 > Effect of EPDM-g-MAH on the Performances of 3D-Printed PLA/Clay/Wood Nanocomposites by Fused Deposition Modeling

( Young-rok Seo ),( Sang-u Bae ),( Min Lee ),( Sang-min Lee ),( Birm-june Kim ) 한국목재공학회 2019 한국목재공학회 학술발표논문집 Vol.2019 No.1

3D printing technology is ideal for the development of prototypes or customized products because it can form complex shapes without special tools or molds. One type of 3D printing method, fused deposition modeling (FDM) is widely used because of its low cost, ease of handling, and popular open source programs. Polylactic acid (PLA), one of the most common 3D printing materials, is synthesized from sustainable resources and has biodegradability. Recently, wood flour (WF)-filled PLA 3D printing filaments have been studied. However, the 3D printing filaments using PLA and WF only, are still brittle and show poor interfacial adhesion between PLA and WF. Thus, in this study, PLA/WF filaments were prepared by incorporating maleic anhydride grafted ethylene propylene diene monomer (EPDM-g-MAH) and nanoclay (NC) to overcome the disadvantages of WF only-filled 3D printing filaments. The incorporation of NC was fixed at 2 wt%, and total 5 formulations of 3D-printed specimens were prepared with different ratios of EPDM-g-MAH. After that, the effect of EPDM-g-MAH on the mechanical, morphological, and x-ray diffraction (XRD) properties of PLA/WF 3D printing filaments were evaluated. Mechanical properties showed that the impact strength was improved with the incorporation of EPDM-g-MAH except for 15 wt% of EPDM-g-MAH. This is because EPDM-g-MAH with elastomeric characteristics caused toughening effect by improving compatibility between PLA and WF. However, the incorporation of large amounts of EPDM-g-MAH may rather restrict the toughening effect and led to decreased flexural and tensile properties by imparting ductility to PLA/WF filaments. Thereby, to minimize the performance reductions, the incorporation of NC was considered. As a result, good interfacial adhesions between fillers and polymer matrix were observed in SEM images. XRD patterns proved that the addition of EPDM-g-MAH promoted the exfoliation of NC silicate layers in PLA matrix. Therefore, EPDM-g-MAH coupling agent could be used as a promising functional additive for the fabrication of PLA/WF 3D printing filaments.

Case Report : Chromoblastomycosis Caused by Phialophora richardsiae

( Young Min Son ),( Hong Kyu Kang ),( So Young Na ),( Hye Young Lee ),( Jin Ok Baek ),( Jong Rok Lee ),( Joo Young Roh ),( Yiel Hea Seo ) 대한피부과학회 2010 Annals of Dermatology Vol.22 No.3

Chromoblastomycosis is a chronic fungal disease of the skin and subcutaneous tissues caused by a group of dematiaceous (black) fungi. The most common etiologic agents are Fonsecaea pedrosoi and Cladophialophora carrionii, both of which can be isolated from plant debris. The infection usually follows traumatic inoculation by a penetrating thorn or splinter wound. Several months after the injury, painless papules or nodules appear on the affected area; these papules then progress to scaly and verrucose plaques. We report a case of chromoblastomycosis caused by Phialophora richardsiae, which has been rarely associated with chromoblastomycosis. The case involved a 43-year-old male, who for the past 2 months had noted an erythematous, pustulous plaque that was somewhat dark brown in color on his right shin; the plaque also had intermittent purulent discharge and crust formation. On histopathological examination, chronic granulomatous inflammation and sclerotic cells were seen. The tissue fungus culture grew out the typical black fungi of P. richardsiae, which was confirmed by polymerase chain reaction. The patient has been treated with a combination of terbinafine and itraconazole for 3 months with a good clinical response. (Ann Dermatol 22(3) 362∼366, 2010)

< 전시-P-40 > A Study on the Thermal Properties of PLA/EPDM-g-MAH/Clay/Wood Nanocomposites

( Young-rok Seo ),( Sang-u Bae ),( Birm-june Kim ) 한국목재공학회 2019 한국목재공학회 학술발표논문집 Vol.2019 No.1

Global environmental problems have motivated a lot of researchers to develop biocomposites with renewable resources such as biopolymers and natural fibers. Polylactic acid (PLA)-based composites filled with wood flour (WF) are one of the preferred research topics. However, the thermal stability of the composites is not still good enough. In order to improve this disadvantage, the incorporation of maleic anhydride grafted ethylene propylene diene monomer (EPDM-g-MAH) and nanoclay (NC) was considered. PLA nanocomposites were fabricated with different proportions of PLA, WF, NC and EPDM-g-MAH. Total 15 types of composite specimens were prepared by melt compounding. Thermal properties of PLA nanocomposites were analyzed by thermogravimetric analysis (TGA) and differential scanning calorimetry (DSC). In TGA results, the thermal stabilities of PLA and PLA/WF nanocomposites were improved by the incorporation of NC. Moreover, additional incorporation of EPDM-g-MAH into PLA/NC and PLA/NC/WF nanocomposites led to remarkably enhanced thermal properties. This is because EPDM is fundamentally heat resistant material and the maleic anhydride functional group effectively reacts with WF and NC. DSC results showed that the melting temperatures of PLA/WF nanocomposites were lower than those of PLA nanocomposites without WF. It might be due to the presence of voids in PLA/WF nanocomposites. The crystallinity values of PLA and PLA/WF nanocomposites showed the improvements of nucleating effect in the presence of NC. While the incorporation of WF and NC into PLA nanocomposites led to decreased glass transition temperature (T_g), they were improved by the incorporation of EPDM-g-MAH due to the increased compatibility between the polymer matrix and the fillers (WF and NC). Therefore, this study suggests that EPDM-g-MAH and NC could effectively improve the thermal properties of PLA/WF nanocomposites.