• Korean Chemical Engineering Research
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• 제55권3호
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• pp.385-394
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• 2017

도계부산물인 닭털(CF)의 알칼리 및 산 가수분해물과 폼알데히드계 가교제를 혼합하여 조제한 접착제의 반응기작 및 경화특성을 조사하였다, 또한 이를 적용시켜 제조한 중밀도섬유판(MDF)의 물성 및 폼알데히드 방산량 측정 결과를 토대로 CF 접착제의 목질계 판상재 제조를 위한 분사형 접착제로서 적용 가능성을 확인하기 위하여 본 연구를 수행하였다. 고형분 함량이 40% 이상인 CF 접착제는 상온에서 점도가 높았으나, $50^{\circ}C$에서 측정한 점도는 $300{\sim}660m{\cdot}Pa{\cdot}s$로 측정되어 낮은 점도를 요구하는 분사형 접착제로 적용이 가능하였다. 적외선 분광기 분석을 통하여 폼알데히드계 가교제의 사용에 따른 methylol기의 부가 및 축합반응을 확인하였다. 시차주사 열량계 분석을 통하여 CF 접착제가 현재 목질계 판상재 제조에 사용되고 있는 요소수지(C-UF)와 비교하여 높은 열압온도 또는 긴 경화시간이 필요한 것으로 조사되었다. 5% NaOH 농도의 수용액에서 가수분해된 CF 가수분해물(이하 CF-AK-5%)과 formaldehyde/phenol 몰비가 2.5인 phenol-formaldehyde prepolymer (PF-2.5)로 조제한 접착제를 사용하고 8분간 열압하여 제조한 MDF에서 높은 휨강도(MOR)와 박리강도(IB)를 보였다. 또한 이 접착제로 제조한 MDF의 MOR과 IB는 대부분의 접착제 조제 및 열압 조건에서 C-UF로 제조한 MDF보다 높았다. 이 측정치를 KS 규격과 비교하였을 때, IB는 모든 조건에서 기준을 상회하였으나, MOR은 CF-AK-5%와 PF-2.5로 조제한 접착제를 사용하고 8분간 열압하여 제조한 MDF를 제외하고 그 기준을 만족하지 못하였으며, 24-TS도 모든 조건에서 기준을 만족하지 못하였다. 그러나 MDF 제조시 보드의 목표밀도를 높이거나 내수성 부여를 위하여 접착제에 첨가하는 wax emulsion의 양을 증가시킬 경우 MOR과 24-TS는 충분히 향상될 것으로 생각한다. 한편, MDF 제조에 있어 CF 접착제의 사용은 폼알데히드 방산량을 크게 감소시켰으며, 따라서 적절한 조건에서 조제된 CF 접착제는 목질계 판상재 제조를 위한 분사형 접착제로서 적용이 가능할 것으로 판단된다.

• 한국산업보건학회지
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• 제16권1호
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• pp.68-80
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• 2006

This study aimed to prepare the fundamental data and assess the status and trend of exposure level for 5 chemical substances such as sulfuric acid, hydrogen chloride, ammonia, formaldehyde and phenol in manufacturing industry by type of industry, working process, and size of factory, chronological change. Subjects related to this study consist of 146 factories, 12 industries and 17 working processes located in Busan area from Jan. 1997 to Dec. 2001. 1. All 5 kinds of chemical substances by type of industry, working process were generated in chemical manufacturing industry. There were founded in 8 types of industries and 13 types of working processes for ammonia, which is the highest number of in all 5 chemical substances. 2. In terms of the exposure level for 5 chemical substances by type of industry, working process, geometric mean concentration for sulfuric acid was $0.40mg/m^3$ in manufacture of chemicals and chemical products, $0.30mg/m^3$ in compounding process, for hydrogen chloride was 0.57 ppm in manufacture of basic metal, 0.48 ppm in dyeing process, for ammonia was 1.11 ppm in manufacture of rubber and plastic products, 0.94 ppm in buffing process, for formaldehyde was 0.49 ppm in manufacture of wood and of products of wood and cork, except furniture; manufacture of articles straw and plating materials, 0.53 ppm in mixing process, and for phenol were 0.53 ppm in manufacture of chemical and chemical products, 0.55 ppm in compounding process, respectively. Results for 5 chemical substances by type of industry and working process were significantly higher than those of the others(p<0.05). 3. The exposure level for hydrogen chloride, formaldehyde were significantly increased by size of industry (p<0.01). ammonia was significantly decreased by size of industry (p<0.01). 4. In trend of the concentration difference of five chemical substances by chronology, geometric mean concentration for sulfuric acid was significantly increased (p<0.01), hydrogen chloride and ammonia were significantly decreased by year (p<0.05) and for formaldehyde and phenol were decreased in chronological change. According to the above results 5 chemical substances were founded together in a way mixed in the same places one another and concentrations of chemical substances by industry, working process, size of industry and year appeared markedly. The authors recommend more systemic and effective work environmental management should be conducted in workplaces generating five chemical substances.

• 대한전기학회논문지:전기물성ㆍ응용부문C
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• 제51권7호
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• pp.287-291
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• 2002

We fabricated the crosslinked films using p-hexadecoxyphenol (p-HP), which is amphiphilic and can form polyion complexes with formaldehyde at the air-water interface. The behavior of polyion complexation at the air-water interface and the surface structure of LB films was investigated by Brewster angle microscope(BAM) and scanning Maxwell-stress microscope (SMM), respectively. Also, the electrical properties for crosslinking in phenol-formaldehyde LB films were investigated by measuring conductivity and dielectric constant. The conductivities of p-HP LB films are as follows: heat-treatment of 1% formaldehyde subphase(3.76$\times$10$^{-15}$ ~4.76$\times$10$^{-1}$5[S/cm])$\times$10$^{-14}$ ~1.74$\times$10$^{-14}$ [S/cm]). Also, relative dielectric constants of p-HP LB films were reduced from 6.76~7.84 (pure water) to 2.97~3.25 (heat-treatment of 1% formaldehyde subphase))

• Journal of the Korean Wood Science and Technology
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• 제51권2호
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• pp.81-97
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• 2023

The aim of this study were to evaluate tannin resorcinol formaldehyde (TRF) for the preparation of cross-laminated timbers (CLTs) made from fast-growing tree species and to analyze the physical and mechanical properties of CLTs. TRF copolymer resin was prepared by using the bark extracts of Swietenia mahagoni (L.) Jacq. It was observed that the TRF adhesive possessed less solid content (23.59%), high viscosity (11.35 poise), and high pH values (10.0) compared to the standard phenol resorcinol formaldehyde. The TRF adhesive was applied to produce CLTs with the addition of 15% tapioca and flour as an extender. The six-layered CLTs were produced from sengon (Falcataria moluccana Miq.), jabon [Anthocephalus cadamba (Roxb) Miq.], coconut (Cocos nucifera L.), and the combination of coconut-jabon and coconut-sengon wood. The analysis of variance revealed that the layer composition of CLT significantly affected the physical and mechanical properties of the beam. While the modulus of rupture met the standard, the moisture content and modulus of elasticity values did not fulfill JAS 1152-2007. All of the CLTs produced in this study demonstrated low formaldehyde emission, ranging from 0.001 mg/L to 0.003 mg/L, thereby satisfying the JAS 1152 for structural glue laminated timber.

• 한국산림과학회지
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• 제48권1호
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• pp.40-50
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• 1980

본(本) 연구(硏究)는 합판공장(合板工場)에서 증량제(増量剤)로 사용(使用)하고 있는 도입소맥분(導入小麥粉)을 국내(国內)에서 값싸게 생산(生産)할 수 있는 증량제(増量剤)로 대체(代替)키 위한 가능성(可能性)을 규명하기 위해 실시(実施)되었다. 증량재료(増量材料)로는 주(主)로 삼립부산물(森林副産物)을 이용개발(利用開発)키 위(爲)해서 밀가루, 목분(木粉), 수피(樹皮), 소나무낙엽(落葉), 포푸리낙엽(落葉)을 택(擇)하였으며 각각(各各) $100{\sim}105^{\circ}C$에서 24시간(時間)동안 전건(全乾) 시킨 다음 60~100mesh로 분쇄(粉碎)하였다. 증량방법(増量方法)은 요소수지(尿素樹脂)와 요소(尿素)-melamine 공축합수지(共縮合樹脂)는 소맥분(小麥粉), 목분(木粉), 수피분(樹皮粉), 포푸라낙엽분(落葉粉)을 각각(各各) 10, 20, 30, 50%로 증량(増量)하였으며 수용성석탄산수지(水溶性石炭酸樹脂)는 소맥분(小麥粉), 목분(木粉), 수피분(樹皮粉), 소나무낙엽분(落葉粉)을 각각(各各) 10, 20, 30, 50%로 증량(増量)하였다. 본(本) 연구(硏究)에서 얻은 결론(結論)은 다음과 같다. 1. 요소수지(尿素樹脂)에 있어서는 상태(常態) 및 내수접착력(耐水接着力) 모두 소맥분(小麥粉)을 능가(能加)하는 증량제(増量剤)가 없었다. 2. 요소(尿素)-melamine 공축합수지(共縮合樹脂)에 있어서 접착력(接着力)은 요소수지(尿素樹脂)보다 대체로 모두 양호(良好)하였으나 상태접착력(常態接着力)에 있어서 소맥분(小麥粉)보다 좋은 접착제(接着剤)는 없었다. 3. 요소(尿素)-melamine 공축합수지(共縮合樹脂)에 있어서 내수접착력(耐水接着力)의 경우 10, 20%증량(増量)에서 포푸라낙엽분(落葉粉), 소맥분(小麥粉), 목분(木粉)이 가장 양호(良好)했으며 이들간(間)의 유의적(有意的)인 차이(差異)는 없었다. 4. 수용성석탄산수지(水溶性石炭酸樹脂)의 경우 상태접착력(常態接着力)은 10% 증량(増量)의 경우 소맥분(小麥粉)보다도 소나무낙엽분(落葉粉)이 더 양호(良好)하였으며 20% 증량(増量)의 경우도 유의적(有意的)인 차이(差異)는 없었다. 5. 수용성석탄산수지(水溶性石炭酸樹脂)의 경우 내수접착력(耐水接着力)은 10% 증량(増量)의 경우 목분(木粉)이 소맥분(小麥粉)보다 우수(優秀)했으며 20, 30, 50% 증량(増量)의 경우 목분(木粉) 및 수피분(樹皮粉)은 소맥분(小麥粉)보다도 양호(良好)하였다.

• Journal of the Korean Wood Science and Technology
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• 제36권3호
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• pp.30-38
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• 2008

현재 국내에서 목질계 판상재를 생산하기 위해 사용되고 있는 석유화학계 접착제의 제조비용 상승과 포름알데히드 방산 문제로 대체 접착제의 개발이 필요한 상황이다. 따라서 본 연구에서는 대체 접착제 개발 방안의 하나인 bio-based 접착제 개발을 위하여 유기폐기물인 두부비지의 원료화 가능성을 확인하였다. 먼저 두부비지의 이화학적 성질을 조사하였고, 두부비지를 황산 또는/그리고 가성소다로 화학적으로 개량한 후 phenol formaldehyde (PF) prepolymer와 혼합하여 접착제를 조제하였으며, 그 접착제를 합판 제조에 사용하였다. 또한 제조된 합판의 접착강도 및 포름알데히드 방산량을 측정하여 합판용 접착제로서 사용가능성을 확인하였다. 본 연구에서 원료로 사용된 두부비지의 고형분 함량 및 pH는 각각 20% 내외, 약산성이었으며, 화학적 조성은 탄수화물의 함량이 가장 높았으며 다음으로 단백질을 많이 함유하고 있었다. 두부비지를 이용하여 조제된 접착제를 이용하여 제조된 합판의 인장전단강도는 KS 규격의 보통합판 품질기준을 상회하였으나, 목파율은 기준에 비해 낮은 것으로 조사되었다. 또한 포름알데히드 방산량도 KS 규격의 E1 기준보다 높은 것으로 나타났다. 따라서 두부비지가 환경친화적인 목질계 판상재료용 접착제의 원료로서 사용될 수 있다는 가능성을 보여 주었으나 접착강도의 향상과 포름알데히드 방산량 저감을 위해 두부비지의 생물학적 개량방안과 가교제로 사용된 PF prepolymer에 대한 좀 더 많은 연구가 필요하다.

• Journal of the Korean Wood Science and Technology
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• 제39권5호
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• pp.451-458
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• 2011

Adhesives derived from renewable resources allow wood panel producers to make lower cost alternatives to formaldehyde-based adhesive resins. Among them, adhesive components extracted from industrial by-products or wastes are the most important research fields in the efficient utilization of waste and cost reduction. In our study, the rapeseed flour, which is a by product from the production of biodiesel extracted from rapeseed, was introduced to develop alternative adhesives for the production of wood flooring. The rapeseed flour was hydrolyzed with 1% sodium hydroxide solution and PF prepolymers were prepared with 3-molar ratios, 1.8, 2.1 and 2.4. The linear fracture mechanics was introduced to evaluate the glue bond quality in wood flooring composed of fancy-veneered and plywood, and the formaldehyde emission and adhesive penetration were also investigated. The formaldehyde emissions of wood flooring met the requirement of the standard of $SE_0$ specified in the KS standard. The rapeseed flour adhesive penetrated sufficiently into the vessel elements and lumens in fancy veneer and plywood and gave strong bond quality to the wood flooring. The fracture mechanics was introduced to evaluate the adhesive joint between fancy veneer and plywood. The critical stress intensity factor ($K_{IC}$) of boliva overlayed wood flooring was increased with increasing molar ratio and this was the same tendency in oak overlayed wood flooring. From the results, the formulated adhesives were efficiently used to bond fancy veneer onto the plywood to make wood flooring and showed a potential to be used as a component of environmentally friendly adhesive resin systems for production of flooring.

• 대한화학회지
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• 제13권4호
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• pp.395-399
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• 1969

On the soft carbon made from petroleum coke, it was found that the graphitization began at around 2,000$^{\circ}C and crystallite diameters were almost saturated at 2,400$^{\circ}C., and that the molecular planes were difficult to arrange into an ideal graphite lattice in spite of the saturation of crystallinity by heat treatment temperature. On the hard carbon made from cross-linked thermosetting plastics, phenol-formaldehyde filler and phenol-benzaldehyde binder, it was very difficult to rotate the molecular planes into a regular directional arrangement and into a consecutive order corresponding to the large graphite crystals. In addition to the above mentioned crystallinity, it was also determined in relation to electric conductivity, resistivity, hardness and apparent density of carbons.

• 한국대기환경학회:학술대회논문집
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• 한국대기환경학회 2000년도 추계학술대회 논문집
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• pp.439-440
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• 2000

알데히드류는 실내의 다양한 오염원에서 발생되어 하루의 대부분을 실내에서 보내고 있는 현대인들에게 건강상 영향을 미치는 것으로 알려져 관심의 대상이 되어왔으며, 특히, 포름알데히드는 발암성 물질로 알려진 대표적인 실내 환경 오염 물질이기도 하다(Zhang junfeng et al., 1999). 포름알데히드는 urea 또는 phenol-formaldehyde 수지를 합성하는 주요 물질이며, 건축물 단열재, 가구의 염료 및 광택제, 접착제, 합판, particle board, 악취 제거제, 제지, 가스 스토브, 담배연기, 화장용품, 세제등 생활 용품에서 공업용품에 이르기까지 광범위하게 사용되며, 그 사용량도 증가되고 있다(Thomas J. Kelly et al., 1999). (중략)

• 한국신재생에너지학회:학술대회논문집
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• 한국신재생에너지학회 2010년도 춘계학술대회 초록집
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• pp.251.2-251.2
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• 2010

Plant biomass has been proposed to be an alternative source for petroleum-based chemical compounds. Especially, phenolic chemical compounds can be obtained from lignin by chemical depolymerization processes because lignin consists of complex aromatic polymer such as trans-p-coumaryl, coniferyl and sinapyl alcohols, etc. Phenolic chemical compounds from lignin were usually produced in super critical water. However, we applied Near-critical water (NCW) system because NCW is known as a good solvent for lignin depolymerization. Organic matter like lignin can be solved in NCW system and the system has a unique acid-base property without conventional non-eco-friendly chemicals such as sulfuric acid and sodium hydroxide. In this work, we tried to optimize the NCW depolymerization system by adjusting the processing variables such as reaction time, temperature and pressure. Moreover, the amount of additional phenol was optimized by changing the molar ratio between water and phenol. Phenol was used as capping agent to prevent re-polymerization of active fragment such as formaldehyde. Alkali-lignin was used as a starting material and characterized by a Solid State 13C-NMR, FT-IR and EA (Elemental Analysis). GC-MS analysis confirmed that o-cresol, p-cresol, anisole and 4-hydroxyphathalic acid were the main product and they were quantitatively analyzed by HPLC.