Preservation of wooden architecture by means of synthetic resin, is physical and chemical work. Synthetic resins are using for consolidation and restoration of decayed members. Since 1978, synthetic resin became useful preservation of architectural heritage in Korea. The first object was Chimgyeru of Songgwang-temple in Suncheon city. In the 1980s, have begun the care of materials for conservation on the architectural heritage, it was influenced according to authenticity of UNESCO Venice charter's principle, in 1964. In Korea, preservation of wooden architecture by means of synthetic resin that is sing many kinds of epoxies. Among the specific types of epoxies are araldite XN1023, SV427, etc. The use of synthetic resin have merits and demerits in the restoration for architectural heritage. The merit is that it is more smaller change with new members during preservation work. But the demerit is an irreversibility of the epoxy resin. In 1999, 'ICOMOS International Wood Committee' recommend contemporary materials and techniques, should be chosen and used with the greatest caution. And preservation work should reversible, as possible as technically. Therefore, should be data continous for preservation of wooden architecture by synthetic resin. Because data is very important work about a preservation of wooden architecture by synthetic resin. And should be try to think about new materials and techniques instead of synthetic resin, in the long view.

Acrylic resins (HSCs : EA/EMA/2-HEMA/CLA) which contain 80% solid content were synthesized by the copolymerization of monomers (ethyl acrylate, ethyl methacrylate, 2-hydroxyethyl methacrylate) and functional monomer (caprolactone acrylate : CLA) which improves the crosslinking density and physical properties of films. The physical properties of the prepared acrylic resins (HSCs) containing CLA, are as follows: viscosity 1440~2630 cps ; Mn 1590~1660 ; and conversions, 81~86%, respectively. From the correlation of Tg values, viscosities, and Mn of the HSCs, it was found thst viscosity and Mn increased with Tg value.

Copolymers (HSA-98-20, HSA-98-0, HSA-98+20) which are acrylic resin containing 80% solid content were synthesized by the reaction of monomers, including methyl methacrylate, n-butyl acrylate, and 2-hydroxyethyl acrylate with a functional monomer, such as acetoacetoxyethyl methacrylate (AAEM), which may improve in cross-linking density and physical properties of films. The physical properties of prepared acrylic resins, containing AAEM, are as follows : viscosity, 1420~5760cps ; number average molecular weight, 2080~2300 ; polydispersity index, 2.07~2.19 ; conversions, 88~93%, respectively. To prepare acryl resins, four kinds of initiators including α,α'-azobisisobutyronitirile (AIBN), di-tert-butyl peroxide (DTBP), t-amylperoxy-2-ethyl hexanoate (APEH), benzoyl peroxide (BPO) were used. The viscosity of the acrylic resins prepared with these initiators was increased in the order of DTBP〉APEH〉AIBN〉BPO. APEH was proved as a suitable initiator in this study. Shear rates of acrylic resins were constant in respect to viscosity. From these results, it would appear that the resins have Newtonian flow characteristics and good workability.

The physical characteristics of polyurethane were examined by SEM, FT-IR tensile strength and mole % [NCO/OH]. Growing concerns in the environment-friendly architecture and public works have led to the development of solvent-free formulations that can be cured and foamed in air. Compared with general packing materials, this resin is much stronger in intensity and much longer in durability. Polyurethane foam resins were mainly composed of polyol, MDI, silicone surfactant, fillers, catalyst and blowing agent. The rigid foam of polyurethane in mechanical characteristics were due to chain extender and the increase of mole % [NCO/OH]. The change in the microstructure of polyurethane should be taken into account when considering the process of construction and durability through the polyurethane polymer resin in lots of industries.

Acrylic resins (HSCs : EA/EMA/2-HEMA/CLA) which contain 70% solid content were synthesized by the copolymerization of monomers (2-hydroxyethyl methacrylate, ethyl acrylate, and ethyl methacrylate) and functional monomer (caprolactone acrylate : CLA) which improves the crosslinking density and physical properties of films. The physical properties of the prepared acrylic resins (HSCs) containing CLA, are as follows : viscosity 245~515 cps ; Mn 2670~2840 ; and conversions, 83~91%, respectively. From the correlation of Tg values, viscosities, and Mn of the HSCs, it was found that viscosity and Mn increased with Tg value.

A copolymer 〈HSAs : EA/EMA/2-HEMA/AAEM) which is an acrylic resin containing 70% solid content was synthesized by the reaction of monomers, including ethyl acrylate, ethyl methacrylate, and 2-hydroxyethyl methacrylate with a functional monomer, such as acetoacetoxyethyl methacrylate, which may give improvements in cross-linking density and physical properties of films. The physical properties of prepared acrylic resins, HSA containing AAEM, are as follows : viscosity, 203~550cps ; Mn, 2590~2850 ; and conversion, 82~89%, respectively. It was found from the plotting of Tg versus viscosity and Tg versus molecular weight that viscosity increased with Tg while number averaged molecular weight decreased with increasing Tg.

An acrylic resin was synthesized with several monomers, styrene(St), 2-hydroxyethyl methacrylate(2-HEMA), n-butyl acrylate, methyl methacrylate, and acetoacetoxyethl methacrylate(AAEM) to prepare a high-solid coatings. Then, a high-solid acryl/melamine coatings was prepared by curing the acrylic resin with a curing agent, hexamethoxymethylmelamine(HMMM). The curing behavior of the acrylic resin with HMMM was investigated by the Ozawa method using DSC. For AAEM/HMMM and 2-HEMA/HMMM curing reactions, activation energies were 33.01 and 27.12 kcal/mol and frequency factors were 9.54×1015 and 1.53×1013 min-1, respectively. From the results, it was found out that 2-HEMA showed higher reactivity with the curing agent than AAEM.

To prepare an environmental friendly high-solid coatings an acrylic resin containing 80% of solid content was synthesized by addition polymerization of caprolactone acrylate, n-butyl acrylate, ethyl methacrylate, and 2-hydroxyethyl methacrylate. The conversion was 78~93% and the prepared resin's physical properties are as follows: viscosity, 212~3424cps: Mn 1740~2400. There was a trend that viscosity and molecular weight of the resin increased with Tg, but no direct proportionality was observed.

The objectives of this study is to investigate the optimum reaction conditions and to identify the product formula in the synthesis of a silicone/acrylic resin that curing in moisture at room temperature. By the addition polymerization of monomers, n-butyl acrylate, methyl methacrylate, n-butyl methacrylate, and 3-methacryloxypropyltrimethoxysilane. a quarter polymer was obtained. Among various initiators investigated in this study, 2.2'-azobisisobutyronitrille was found to be the most suitable initiator. The optimum reaction conditions found in this study are 70 wt% of initial solvent amount, 120 minutes of dropping time, 3 times of initiator addition, 82~105℃ of reaction temperature, and 8 hrs of reaction time. Also, number average molecular weight of 11700~33100 and molecular weight distribution of 1.81~3.44 were obtained.

Additives in plastics are capable of migrating from the packaging materials into the foodstuffs, thereby presenting a source of contamination and a potential health risk to the consumer. The migration from packaging materials into foodstuffs is first of all regulated by examining the amounts of global and specific migrated components. Besides, there is worldwide still a need for practical methods for measuring and monitoring migration from polymers, especially for the testing of migration into fatty foodstuffs. Therefore, these studies were undertaken to investigate the safety status of domestic plastic packaging materials with respect to migration. Another objective of this study was to examine the applicability of ethanol as an alternative fatty food simulant substituting for olive oil and n-heptane. The evaporation residues for various domestic plastic samples determined as described in Korean food laws were in the level from 4.3 to 14.5 mg/l, which were much lower than the limit value of 150 mg/l. The global migration values into 95 % ethanol showed to be comparable to those into n-heptane, while the olive oil migration values were comparably higher than those into ethanol or n-heptane and moreover they were not reproducible. The kinetic migration behavior of additives in polyolefin samples into 95% ethanol showed a Fickian diffusion process. The results of these studies on global migration and kinetic testings demonstrate that the ethanol could be successfully substitute for the olive oil and n-heptane as an alternative fatty food simulant, at least in contact with polyolefins.

Diglycidy1 ether of bisphenol A (DGEBA)/4,4'-methylene dianiline(MDA)계의 경화반응 속도에 미치는 pheny1 glycidy1 ether (PGE)-acetamide(AcAm)의 영향을 연구하였다. 반응성 첨가제로 사용된 PGE-AcAm는 PGE와 acetamide를 2:1의 몰 비로 혼합한 후 180˚C에서 1시간 반응시켜서 합성하였으며, PGE의 에폭사이드기와 AcAm의 아민기가 반응함으로써 수산기를 형성함에 의해 진행되었다. 이 때 생성된 수산기는 DGEBA와 MDA의 반응에서 촉매로 작용하여 반응속도를 크게 활성화 에너지는 11.11 Kcal/mol이었고, 30 phr의 PGE-AcAm이 첨가된 계의 활성화 에너지는 7.91Kcal/mol이었다.

국내 폐기물 관리법에 의한 사업장폐기물 중에서 주변 환경을 오염시킬 수 있는 유해한 물질을 함유한 폐기물인 지정폐기물은 보관, 수집운반 및 처리 등의 기준이 생활폐기물에 비해 엄격해 총 처리 과정에서 필연적으로 많은 비용이 발생한다. 이런 상황에서 지정폐기물의 유해성을 저감시켜 일반 폐기물화하여 처리하거나 재활용이 가능하다면 산업현장에 비용적 측면의 부담을 크게 완화할 수 있다. 이에 본 연구에서는 에폭시 수지 생산 산업공정에서 발생하는 지정폐기물을 대상으로 성상분석을 통해 유해물질의 이화학적 특성 및 성상을 파악하고 일반폐기물화 또는 재활용에 대한 가능성을 평가하였다. 2010년 환경부 폐기물 통계를 기준으로 가장 많은 폐기물을 배출하는 분야는 화학제품 제조업이며, 화학제품 제조업 중 본 연구에서는 에폭시수지 생산 공정 중 탈염분액 공정에서 나오는 폐기물을 현장에서 채취하여 실험에 사용하였다. 탈염분약 과정에서 나오는 폐기물은 주 원료인 비스페놀A와 여러 휘발성 유기화합물이 포함되어 있어 지정폐기물로 분류된다. 시료 운반과정에서 VOCs(휘발성유기화합물)의 휘발을 방지하기 위해 밀폐용기에 담아 실험실로 옮긴 후 냉장 보관하였다. 우선 폐기물의 이화학적 특성을 파악하기 위해 해당 시료에 대해 폐기물 용출시험, 발열량 분석 및 전원소 분석을 수행하였다. 분석 결과 중금속은 용출되지 않았으며, 발열량 4500 kcal/kg, 염소이온 0.67 %등으로 환경부 폐기물 재활용 기준은 충족하였다. 그러나 332,000 mg/kg 이상의 고농도 톨루엔이 존재했고 그 외에 자일렌 36 mg/kg, 에틸벤젠 23 mg/kg, 클로로벤젠 15 mg/kg 등 여러 휘발성 유기화합물도 함유되어있었다. 고농도의 VOCs는 인체에 노출될 경우 발암성 등의 유해성이 있으므로 재활용하기 위해서는 반드시 저감해야 한다. VOCs는 증기압이 높고 헨리상수가 크므로 고온 stripping이 가장 효율적인 방법으로 판단된다. 단, VOCs자체가 대기오염 물질이므로 stripping 후 배가스를 별도의 처리를 하지 않고 대기 중으로 방출할 경우 대기오염을 유발하게 된다. 따라서 stripping장치 후단에 활성탄을 충진한 column을 설치하여 탈기된 VOCs를 제거 할 수 있도록 설계하였다. 80℃온풍으로 폐기물 중의 VOCs를 stripping하자 초기에 8,000 ppm정도의 VOCs가 발생하였고, 약 20분 동안 농도가 급격히 저하되었다. 120분 후 부터는 20 ppm 내외의 농도를 나타내었다. 활성탄 후단에서는 유입농도에 관계없이 악취방지법에 의한 대기 배출허용기준인 30 ppm을 만족시켰다. 폐기물 중의 VOCs농도는 12900 mg/kg으로 감소하였으나 발열량은 거의 변화가 없어 폐기물 고형연료로 활용할 수 있는 것으로 나타났다.

This study investigated the applicability of synthetic resins as neutron shielding aggregates in cementitious materials with SEM analysis. Synthetic resins contain lots of hydrogen atoms, which is effective in neutron shielding by an elastic scattering because its mass is almost the same as that of the neutron. The SEM results showed that the binding force between HDPE/PP particles and cement matrix is very week compared to that of UPE particles so that additional treatment such as surface reforming should be needed.

2003년부터 시행된 우리나라의 대표적인 재활용제도인 EPR제도는 재활용품의 분리수거기반 조성 및 재활용산업을 활성화하는 견인차의 역할을 수행하였다. 그러나 제도운영 10년의 기간을 거치면서 재활용공제조합의 분리운영으로 인한 행정비용과다지출, 의무생산자의 개별위탁으로 인한 재활용 사업자간 과다경쟁심화, 낮은 재활용지원금으로 인한 재활용업체들의 채산성 악화 등 제도상의 여러 문제점이 발견되어 2013년 재활용촉진에 관한 법률이 개정되었다. 하지만 기본적으로 재활용사업자들이 재활용업체운영에 있어서 명확한 경제적 손익에 대한 분석이 이루어지지 않아 EPR제도의 가장 중요한 요소인 재활용지원금, EPR분담금, 재활용기준비용에 대한 설정이 매우 어려운 실정이며, 그 중에서도 가장 비율이 많은 합성수지류에 대한 회수 및 재활용단계의 경제성분석이 반드시 필요한 실정이다. 본 연구에서는 합성수지류 재활용품인 PET병, 단일재질용기류, 복합재질필름류 포장재에 대하여 회수 및 재활용업체 설문조사와 현장방문조사를 실시하여 현재 EPR제도상 합성수지류재활용품의 품목별, 단계별 표준프로세스를 설정하고, 그에 따른 회수재활용소요비용을 산출하여 손익정도를 분석한 후, 그에 따른 향후 재활용지원금 및 EPR분담금이 산정될 수 있는 기준을 마련하고자 하였다. 각 품목별 재활용지원금 및 분담금단가의 산정은 사회적인 표준인건비 및 적정 시설투자를 하였을 경우인 적정투자모델과 재활용업체가 적자를 메우고 수익을 창출하기 위하여 인건비 및 시설투자를 최소화한 현실투자모델로 나누어 산정하였다. 연구결과 재활용시장 활성화를 위하여 지급되어야할 회수재활용 적정 지원금은 적정투자모델Case PET병의 경우 무색 114.6원/kg, 유색 244.7원/kg, 복합재질 352.6원/kg, 단일재질용기류의 경우 116.2원/kg, 복합재질필름류의 경우 254.9원/kg의 재활용지원금이 필요한 것으로 분석되었으며, 현실투자모델Case PET병의 경우 무색 78.5원/kg, 유색 208.6원/kg, 복합재질 316.5원/kg, 단일재질용기류의 경우 77.6원/kg, 복합재질필름류의 경우 210.1원/kg의 재활용지원금이 필요한 것으로 분석되었다.

This paper presents the actual recycling rates and recycling processes of waste plastic recycling facilities using material flow analysis. Determination of actual recycling rates through the processes of waste plastics is a very important subject not only from the point of plastic recycling efficiency energy conversion but also from the perspective of the recycling technology level. In this study, the recycling processes and recycling rates of waste plastic recycling facilities were evaluated by the MFA analysis based on 14 site visits and 25 questionnaires. The MFA methodology based on mass balance approach applied to identify the inputs and outputs of recyclable plastic materials in the recycling processes at recycling facilities. It is necessary to determine the composition and flows of the input materials to be recycled in a recycling facility. A complete understanding of the waste flows in the processes along with the site visit and data surveys for the recycling facilities was required to develop a material flow for the processes and determine the actual recycling rate. The results show that the average actual recycling rates for the recycling facilities by the site visit and the questionnaire was found to be approximately 87.5 ± 7.1% and 84.3 ± 14.5%, respectively. The recycling rates depended upon several factors including the quality of incoming waste plastics, the type and operating conditions of recycling processes, and the type of final products. According to the national statistics, the recycling rate of waste plastics was about 53.7%, while the actual recycling rate at national level was estimated to be approximately 45.1% by considering the recycling performance evaluated as well as the type of recycling process applied. The results of MFA for the recycling processes served as a tool to evaluate the performance of recycling efficiency with regard to the composition of the products during recycling. They may also support the development of the strategy of improvement of recycling processes to maximize resource recovery out of the waste plastic materials.

건조물문화재의 부식 및 노후화에 대한 보존수리는 원형유지를 기본원칙으로 하며, 수리로 인해 인위적인 훼손을 가하는 과오를 범해서도 안 된다. 따라서 합성수지를 이용한 보존처리방법이 부각되어지고 있다. 본 연구의 목적은 합성수지로 보강한 사각단면 목재의 휨 성능에 관한 연구로서 합성수지의 보강길이, 보강면적비율, 합성수지 재료강도, 보강위치를 변수로 하여 총 11개의 시험체를 제작하여 실험하였다. 이 연구의 결과는 목재의 휨 보강재로 합성수지의 보강효과가 있는 것으로 나타났으며, 사용 가능성을 확인할 수 있었다.