‘크로스 플랫폼’(cross platform) 시대로 불리는 콘텐츠 패러다임의 전환기를 맞아, 지금까지 ‘서브 컬처’(sub-culture)로 불리던 웹툰이 OTT 플랫폼의 원천 IP(지식재산)로 급부상하고 있다. 웹툰은 팬덤을 통한 흥 행성 확보 및 독창성·확장성 등의 장점을 무기로 유력한 거점 콘텐츠 IP 로 각광받고 있다. 넷플릭스 등 OTT 플랫폼에서 K-드라마의 글로벌 경 쟁력을 확인시킨 <킹덤>, <이태원 클라쓰>, <스위트 홈>, <지옥>, <지금 우리 학교는> 등은 모두 웹툰을 원작으로 하고 있다. 특히 웹툰은 스토 리의 완결성과 세계관을 가진 원천 콘텐츠로서 영상, 게임 등 다양한 분 야로 IP 확장이 가능하기 때문에 미디어 생태계의 새로운 ‘가치사 슬’(value chain)로 떠오르고 있다. 이러한 시점에서 본 연구는 OTT 플 랫폼을 통해 공개된 국내 웹툰 콘텐츠의 활용 사례와 IP 확장에 유용한 전략으로 기대되는 ‘트랜스미디어 스토리텔링’과의 상관관계 연구를 통해 웹툰의 세계관 확장에 대한 시사점을 모색해 보고자 한다.

디지털 트윈 기술의 도입은 소재/제품 개발 및 공정의 전주기 과정에서 보다 통합적이며 단절없는 디지털 가상화를 요구하고 있다. 이러한 요구는 미시적 반응, 표면 및 계면 현상을 아우르는 모델링 기법과 거시적 물리 모델 혹은 인공지능 모델의 광범위한 적용을 필요로 한다. 이는 다양한 환경조건에서 소재의 물성 데이터베이스와 미시적 현상 모사가 필요함을 의미하며, 분자동역학 시뮬레이션이 이를 달성하기 위하여 유용하게 활용될 수 있다. 본 논문에서는 평형 및 비평형 분자 동역학 시뮬레이션 방법을 활용한 물성 계산 방법을 개괄하고, 열 및 기계적 물성등 주요 물성 계산 사례들을 검토하여 제시하였다. 본 논문은 분자 동역학 시뮬레이션을 활용한 물성 계산 프레임 워크 개발과 보다 정확하며 신뢰도 높은 계산 수행에 통찰을 제공할 것으로 기대 된다.

This study investigated the physicochemical properties of protein-fortified rice flour by mixing rice flour (RF) with untreated and fermented plant proteins. Fermented faba bean protein concentrate (FMFP) and chickpea flour (FMCF) were prepared by solid-state fermentation of faba bean protein concentrate (UTFP) and chickpea flour (UTCF) using Bacillus subtilis. FMFP and FMCF exhibited higher crude protein, reducing sugar and starch contents more than their counterparts. The increased rate of essential and branched-chain amino acids in FMFP and FMCF exceeded that of crude protein. Adding plant proteins to RF decreased swelling power (SP) and increased solubility in RF-UTFP and RF-FMFP mixtures, while SP and solubility increased in RF-UTCF and RF-FMCF mixtures. All RF-plant protein mixtures showed higher gelatinization temperature and lower gelatinization enthalpy than RF. Thermal gelation was found in all RF-plant protein mixtures, but the RF-FMCF mixture may form weak and unstable gel structures. The increase in pasting viscosity was minimal for the RF-UTFP and RF-FMFP mixtures but more pronounced for the RF-UTCF and RF-FMCF mixtures. Overall, FMFP may be a potential protein source to supplement the protein deficiency in RF with minimal changes in RF-based foods’ rheological and textural properties.

소유자불명토지의 증가는 최근 일본의 심각한 사회문제로 지적되고 있다. 소유자불명토지란 공부상의 기재내용과 실제상의 권리관계의 괴리 등에 의 해 부동산등기부 등을 참조하더라도 소유자가 즉시 판명되지 않거나 소유자 가 판명되더라도 등기부상의 소유자와의 연락이 불가능한 토지를 의미한다. 이와 같은 소유자불명토지 문제는 소유자와의 연락이 불가능하므로 개인간 거래의 장애요인이 될 것이며 그리고 정부 주도의 사업상 필요한 토지를 이 용하려고 해도 사업대상지 내의 소유자불명토지로 인해 사업실시의 동의를 얻는 것이 불가능하고, 결과적으로 원활한 사업진행의 장애요인으로 지적되 었다. 이에 일본 정부는 위와 같은 문제를 해결하기 위하여, 2021년 민법 및 부동산등기법의 개정 등에 관한 요강안을 작성하여 본 요강안의 내용에 따라 동년 4월 민법 등의 일부를 개정하는 법률을 공표하였다. 본 제・개정 의 내용 중 부동산등기법에 관련한 큰 얼개는 다음과 같다. 즉, 상속등기신 청의 의무화, 상속등기 절차의 간략화 및 부담경감, 소유권등기명의인의 성 명 및 명칭에 관한 정보의 갱신, 등기의무자의 소재 파악이 곤란한 경우 등 기절차의 간략화, 소유권 등기명의자가 법인인 경우 회사법인번호를 등기사 항으로 정한 것, 일본국내에 주소를 가지지 않는 외국인의 경우 일본국내의 연락처를 등기사항으로 한 것, 등기부의 부속서류의 열람제도의 요건의 명 확화, 가정폭력 등의 피해자를 보호하기 위한 방책으로서 등기부의 등기사 항인 현 주소를 갈음한 사항을 기재할 수 있게 한 것, 그리고 소유부동산기 록증명서의 교부의 신설 등의 내용이 새로 추가되거나 개정되었다. 이에 본고는 위의 내용을 소개하여 우리 법제의 운영 및 해석상의 시사를 얻는 것 을 목적으로 하였다.

ZnO/Cu/ZnO (ZCZ) thin films were deposited at room temperature on a glass substrate using direct current (DC) and radio frequency (RF, 13.56 MHz) magnetron sputtering and then the effect of post-deposition electron irradiation on the structural, optical, electrical and transparent heater properties of the films were considered. ZCZ films that were electron beam irradiated at 500 eV showed an increase in the grain sizes of their ZnO(102) and (201) planes to 15.17 nm and 11.51 nm, respectively, from grain sizes of 13.50 nm and 10.60 nm observed in the as deposited films. In addition, the film’s optical and electrical properties also depended on the electron irradiation energies. The highest opto-electrical performance was observed in films electron irradiated at 500 eV. In a heat radiation test, when a bias voltage of 18 V was applied to the film that had been electron irradiated at 500 eV, its steady state temperature was about 90.5 °C. In a repetition test, it reached the steady state temperature within 60 s at all bias voltages.

The objective of this study is development of graphite-boron composite material as a replacement for metal canisters to Improve the heat dissipation and radiation shielding performance of dry spent nuclear fuel storage system and reduce the volume of waste storage system. KEARI research team plan to use the graphite matrix manufacturing technology to pelletize the graphite matrix and adjust the content of phenolic resin binder to minimize pore formation. Specifically, we plan to adjust the ratio of natural and synthetic graphite powder and use uniaxial pressing technology to manufacture black graphite matrix with extremely high radial thermal conductivity. After optimizing the thermal conductivity of the graphite matrix, we plan to mix it with selected boron compounds, shape it, and perform sintering and purification heat treatments at high temperatures to manufacture standard composite materials.

An irradiation hardening of Inconel 718 produced by selective laser melting (SLM) was studied based on the microstructural observation and mechanical behavior. Ion irradiation for emulating neutron irradiation has been proposed owing to advantages such as low radiation emission and short experimental periods. To prevent softening caused by the dissolution of ' and '' precipitates due to irradiation, only solution annealing (SA) was performed. SLM SA Inconel 718 specimen was ion irradiated to demonstrate the difference in microstructure and mechanical properties between the irradiated and non-irradiated specimens. After exposing specimens to Fe3+ ions irradiation up to 100 dpa (displacement per atom) at an ambient temperature, the hardness of irradiated specimens was measured by nanoindentation as a function of depth. The depth distribution profile of Fe3+ and dpa were calculated by the Monte Carlo SRIM (Stopping and Range of Ions in Matter)-2013 code under the assumption of the displacement threshold energy of 40 eV. A transmission electron microscope was utilized to observe the formation of irradiation defects such as dislocation loops. This study reveals that the Frank partial dislocation loops induce irradiation hardening of SLM SA Inconel 718 specimens.

YSZ (Y2O3-stabilized zirconia)-based ceramics have excellent mechanical properties, such as high strength and wear resistance. In the application, YSZ is utilized in the bead mill, a fine-grinding process. YSZ-based parts, such as the rotor and pin, can be easily damaged by continuous application with high rpm in the bead mill process. In that case, adding WC particles improves the tribological and mechanical properties. YSZ-30 vol.% WC composite ceramics are manufactured via hot pressing under different pressures (10/30/60 MPa). The hot-pressed composite ceramics measure the physical properties, such as porosity and bulk density values. In addition, the phase formation of these composite ceramics is analyzed and discussed with those of physical properties. For the increased applied pressure of hot pressing, the tetragonality of YSZ and the crystallinity of WC are enhanced. The mechanical properties indicate an improved tendency with the increase in the applied pressure of hot pressing.

본 논문에서는 3차원 엮임 재료의 재료 물성치들을 효율적으로 분석하고 추후 최적설계 연구에 활용하기 위해서 파라메트릭 배치 해석 워크플로우를 제시하였다. 3차원 엮임 재료를 구성하는 와이어들 사이의 간격을 설계 매개변수로 하는 파라메트릭 모델에 대해 서 임의의 변수 조합을 가지는 2,500개의 수치 모델을 생성하였으며, 상용 프로그램인 매트랩과 앤시스의 여러 모듈을 사용하여 체적 탄성계수, 열전도도, 유체투과율과 같은 다양한 재료 물성치들을 배치 해석을 통해서 자동으로 얻어질 수 있도록 구성하였다. 이와 같 이 얻어진 대용량의 재료 물성치 데이터베이스를 활용해서 회귀 분석을 수행하였으며, 그 결과 설계 변수들과 재료 물성치 사이의 경 향성과 수치 해석 결과의 정확도를 검증하였다. 또한 확보된 데이터베이스를 통해서 3차원 엮임 재료의 물성치를 예측할 수 있는 인 공 신경망을 구성하고 학습시켰으며, 그 결과 임의의 설계 매개변수 값들을 가지는 엮임 재료 모델에 대해서 구조 및 유체해석 과정 없 이도 높은 정확도로 재료 물성치들을 추정할 수 있음을 확인하였다.

In this study, waste corrugated paper was used as carbon precursor with KOH-NaOH mixture (mole ratio was 51:49 and the melting point is 170 °C) as activator to prepare porous carbon at different reaction temperature and different mass ratio of KOH-NaOH mixture/waste corrugate paper fiber. The micro-morphology, pore structure information and composition of porous carbon were analyzed, and the formation mechanism of pores was investigated. The effect of activator amount and pyrolysis temperature on the morphology and structure of porous carbon were studied. The adsorption capacity of porous carbon was evaluated with the methylene blue as model pollutant. The effect of adsorbent amount, adsorption time and temperature on the adsorption performance of the porous carbon were analyzed. The maximum specific surface area is 1493.30 m2 ·g−1 and the maximum adsorption capacity of methylene blue is 518 mg·g−1. This study provides a new idea for efficient conversion and utilization of waste paper.

A study was conducted on the vitrification of the rare earth oxide waste generated from the PyroGreen process. The target rare earth waste consisted of eight elements: Nd, Ce, La, Pr, Sm, Y, Gd, and Eu. The waste loading of the rare earth waste in the developed borosilicate glass system was 20wt%. The fabricated glass, processed at 1,200℃, exhibited uniform and homogeneous surface without any crystallization and precipitation. The viscosity and electrical conductivity of the melted glass at 1,200℃ were 7.2 poise and 1.1 S·cm−1, respectively, that were suitable for the operation of the vitrification facility. The calculated leaching index of Cs, Co, and Sr were 10.4, 10.6, and 9.8, respectively. The evaluated Product Consistency Test (PCT) normalized release of the glass indicated that the glass satisfied the requirements for the disposal acceptance criteria. Furthermore, the pristine, 90 days water immersed, 30 thermal cycled, and 10 MGy gamma ray irradiated glasses exhibited good compressive strength. The results indicated that the fabricated glass containing rare earth waste from the PyroGreen process was acceptable for the disposal in the repository, in terms of chemical durability and mechanical strength.

PURPOSES : The process of extracting and recovering an asphalt binder from an asphalt mixture is harmful to the human body and can affect the properties of the asphalt binder owing to the presence of residual solvent quantities. This study was conducted to determine the properties of aged asphalt binders based on rejuvenator content without extracting and recovering the asphalt binders using RAP mortar. METHODS : After extracting and recovering aged binders from waste asphalt, a rejuvenator was added at a certain rate to evaluate the physical and rheological properties of the binder based on the added amount. RESULTS : When the rejuvenator content was greater than necessary, the absolute viscosity was not properly measured owing to the behavior of the rejuvenator. The phase angle was measured to be almost 90°, thus indicating that it acted as a liquid . In addition, the shear strain and nonrecovery compliance also increased significantly. CONCLUSIONS : If an excess rejuvenator quantity was added to the aged binder, the absolute viscosity was not properly measured, the phase angle was measured to be almost 90°, and the shear strain increased significantly. It is also necessary to conduct the same tests on different types of RAPs to ensure that the results of this study are reasonable.

The engineered barrier system (EBS) for deep geological disposal of high-level radioactive waste requires a buffer material that can prevent groundwater infiltration, protect the canister, dissipate decay heat effectively, and delay the transport of radioactive materials. To meet those stringent performance criteria, the buffer material is prepared as a compacted block with high-density using various press methods. However, crack and degradation induced by stress relaxation and moisture changes in the compacted bentonite blocks, which are manufactured according to the geometry of the disposal hole, can critically affect the performance of the buffer. Therefore, it is imperative to develop an adequate method for quality assessment of the compacted buffer block. Recently, several non-destructive testing methods, including elastic wave measurement technology, have been attempted to evaluate the quality and aging of various construction materials. In this study, we have evaluated the compressive wave velocity of compacted bentonite blocks via the ultrasonic velocity method (UVM) and free-free resonant column method (FFRC), and analyzed the relationship among compressive wave velocity, dry density, thermal conductivity, and strength parameter. We prepared compacted bentonite block specimens using the cold isostatic pressure (CIP) method under different water content and CIP pressure conditions. Based on multiple regression analysis, we suggest a prediction model for dry density in terms of manufacturing conditions. Additionally, we propose an empirical model to predict thermal conductivity and unconfined compressive strength based on compressive wave velocity. The database and suggested models in this study can contribute to the development of quality assessment and prediction techniques for compacted buffer blocks used in the construction of a disposal repository.