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유리섬유/폴리카보네이트 복합재료의 기지 분자량에 따른 함침 및 기계적 물성 평가
김늘새롬 ( Neul-sae-rom Kim ),장영진 ( Yeong-jin Jang ),이은수 ( Eun-soo Lee ),권동준 ( Dong-jun Kwon ),양성백 ( Seong Baek Yang ),이정언 ( Jungeon Lee ),염정현 ( Jeong Hyun Yeum ) 한국복합재료학회 2021 Composites research Vol.34 No.1
열가소성 섬유강화 복합재료는 수송용 기기의 경량화 소재로써 적용 분야가 확대되고 있다. 본 연구에서는 분자량이 다른 폴리카보네이트(PC)를 이용하여 연속섬유 강화 유리섬유(GF)/폴리카보네이트(PC) 복합소재의 함침성 및 기계적 물성에 대한 평가를 진행하였다. GF 직물과 PC 필름을 제조한 후, 이를 이용하여 연속가압성형법으로 연속섬유 강화 GF/PC 복합재 평판을 제조하였다. PC 분자량에 따른 용융지수를 측정 및 평가하였고, GF제직물 강화 GF/PC 복합재료의 인장강도, 굴곡강도, 압축강도 및 기공체적률을 평가하였다. 전계방사형 주사전자 현미경을 이용하여 인장파괴된 GF/PC 복합재료의 형태를 분석하여 파괴거동을 확인하였다. 분자량이 20,000일 때 최적의 기계적 특성이 발현되는 것을 확인하였다. Fiber-reinforced thermoplastic composites are applied to transport industries to lightweight of body, and applications will be expanded gradually. In this study, the impregnation and mechanical properties of continuous glass fiber (GF) reinforced polycarbonate (PC) composites were evaluated with different molecular weights of PC. The continuous GF reinforced PC composite were prepared by using GF fabric and PC film via continuous compression molding method. The melting flow index and tensile strength of PC matrix were evaluated with different molecular weights. Mechanical properties (tensile, flexural, and compressive) and pore rate of GF/PC composite were evaluated with different molecular weights of PC. The fracture behavior was analyzed to fracture surface of GF/PC composite using FE-SEM images. As these results, it was condition of representing the best mechanical property that the GF/PC composite was prepared by using PC of 20,000 g/mol as matrix.
불균일계 비누화를 통한 폴리비닐알코올/셀룰로오스 필름 제조
김태영(Tae Young Kim),김미경(Mi Kyung Kim),김진수(Jinsoo Kim),이정언(Jungeon Lee),정재훈(Jae Hoon Jung),김영권(Youngkwon Kim),김태현(Tae Hyeon Kim),염정현(Jeong Hyun Yeum) 한국염색가공학회 2023 韓國染色加工學會誌 Vol.35 No.4
Poly(vinyl alcohol) (PVA) is a common hydrophilic polymer that is synthesized through the saponification reaction of poly(vinyl ester)-based polymers, mostly using poly(vinyl acetate) (PVAc) as a precursor. The heterogeneous saponification reaction of poly(vinyl ester)-based films leads to PVA films with new surface properties. Cellulose acetate (CA), in which the hydroxyl group of cellulose is replaced by an acetyl group, is a typical cellulose derivative capable of overcoming the low processability of cellulose due to strong hydrogen bonding. In this study, P(VAc/VPi)/CA blended films were prepared by the solvent casting, and then PVA/Cellulose blended films with improved surface properties were prepared by heterogeneous saponification. The structural changes caused by heterogeneous saponification were confirmed by FT-IR analysis, where both saponification and deacetylation reactions occurred in the saponification solution. In addition, the surface property changes were analyzed by FE-SEM and contact angle analyses, and the transmittance changes of the modified films were also assessed.
초고속 원심방사에 의한 아세트산프로피온산 셀룰로오스/폴리부틸렌 숙시네이트 다공성 마이크론 섬유 제조
김태영(Tae Young Kim),김미경(Mi Kyung Kim),김진수(Jinsoo Kim),이정언(Jungeon Lee),정재훈(Jae Hoon Jung),김영권(Youngkwon Kim),김태현(Tae Hyeon Kim),김기영(Ki Young Kim),염정현(Jeong Hyun Yeum) 한국염색가공학회 2023 韓國染色加工學會誌 Vol.35 No.4
Cellulose is an abundant biodegradable material in nature with excellent properties, but due to its poor processability, it has been widely studied for processing through modification. Cellulose acetate propionate (CAP) is a cellulose derivative in which the hydroxyl group of cellulose is replaced by acetyl and propionyl groups. CAP has several advantages, such as excellent solubility, structural stability, light and weather resistance, and good transparency. Porous nanofibers with excellent specific surface area, which can be applied in various fields, can be easily formed by the phase separation method using highly volatile solvents. High speed centrifugal spinning is a nano/micro fiber preparation method with advantages such as fast spinning and easy alignment control. In this study, a CAP/polybutylene succinate (PBS) spinning solution with chloroform as solvent was prepared to prepare porous microfibers and the fiber morphology was examined as a function of the disk rotation speed in an high speed centrifugal spinning device.