제지 공정 과정에서 슬러지를 소각할 때 생성되는 제지애쉬를 도로 하부 동공 보수 재료인 유동성 채움재의 재료로 재 활용 가능성에 대하여 실험적으로 평가하였다. 유동성 채움재는 플로우 값으로 대표되는 유동성, 압축강도 및 블리딩률 에 의해 평가됨에 따라 해당 특성에 대하여 시험 및 평가를 진행하였다. 제지애쉬의 화학적 성분이 강도 발현을 위한 시 멘트와 유사한 점에 기반하여 제지애쉬를 시멘트 중량비의 0~40% 범위에서 치환하여 페이스트 혼합물을 제작하였다. 이 후, 플로우 및 압축강도 시험을 수행하여 제지애쉬의 적정 치환 범위를 선정하였다. 이후, 시멘트-제지애쉬 페이스트 혼 합물에 잔골재 및 굵은 골재를 혼합하여 유동성 채움재(CLSM: Controlled Low Strength Material) 혼합물을 배합하고 플로 우, 압축강도, 블리딩 시험을 실시하였다. 시험 결과 제지애쉬 치환율이 증가함에 따라 혼합물의 유동성 및 압축강도가 감소하였으며, 이는 제지애쉬의 높은 수분 흡수율에 의한 영향으로 판단된다. 혼합물의 적정 배합을 통하여 소정의 플로 우, 압축강도 및 블리딩률 기준을 만족할 수 있었으며, 이를 통해 제지애쉬의 유동성 채움재 활용 가능성을 확인하였다.

Flexible electrodes, particularly paper electrodes modified with polypyrrole, have shown promise in energy-related applications. We have earlier demonstrated the usage of paper electrodes modified with polypyrrole as a flexible and suitable photoanode for photoelectrochemical water splitting (PEC). Further, modification of this electrode system with an appropriate tandem absorber system for solar fuel production is interesting in developing efficient photoanodes. In this study, we study the PEC performance of flexible polypyrrole-based paper photoanodes (PPy-PAs) by decorating them with rGO@Cu2Zn- SnS4 chalcopyrites (rGO@CZTS/PPy-PAs). The lower bandgap (~ 1.5 eV) of the rGO@CZTS/PPy-PAs system allows for efficient visible light absorption, substantially improving PEC water-splitting reactions. The rGO@CZTS/PPy-PAs exhibited an enhanced current density of ~ 13.2 mA/cm2 at 1.23 V vs RHE, ABPE of ~ 1.5%, and a hydrogen evolution rate of 177 μmoles/min/cm2. Overall, rGO@CZTS/PPy-PAs showed 2.1-fold, 1.1-fold, and 1.4-fold enhancement in photocurrent activity over PPy-PAs, CZTS/PPy-PAs, and rGO/PPy-PAs, respectively. The usability of rGO@CZTS/PPy-PAs is established in the form of stable photocurrent for more than 200 min. These findings open new possibilities for developing modified PPy PAs as flexible PEs for efficient solar-driven PEC devices and give directions on improving flexible PEs for flexible and efficient solar-driven PEC systems.

The arrival of the 5G era has made electromagnetic pollution a problem that needs to be addressed, and flexible carbon-based materials have become a good choice. In this study, wet continuous papermaking technology was used to prepare carbon fiber paper (CFP) with a three-dimensional conductive skeleton network; Molybdenum disulfide ( MOS2)/ iron (Fe) @ carbon fiber paper-based shielding material was prepared by impregnating and blending molybdenum disulfide/iron ( MOS2/Fe) phenolic resin MOS2/ Fe@ CFP. The morphology, structure, electrical conductivity, mechanical properties, hydrophobicity, and electromagnetic shielding properties of the composite were characterized. The results show that the three-dimensional network structure based on a short carbon fiber paper-based conductive skeleton and the synergistic effect of the MOS2 dielectric wave absorbing agent and Fe magnetic wave absorbing agent have good electromagnetic shielding performance. Conduct electromagnetic shielding simulation using HFSS software to provide options for the structural design of CFP. The electromagnetic shielding performance of CFP reaches 70 dB, and the tensile strength reaches 34.39 MPa. Based on the mechanical properties, the compactness of carbon fiber paper is ensured. The lightning damage model test using CST software expands the direction for the use of carbon fiber paper. In summary, MOS2/ Fe @CFP with excellent shielding performance has great application prospects in thinner and lighter shielding materials, as well as high sensitivity, defense and military equipment.

ㅊThis study aims to analyze fashion design cases using traditional elements based on the research and analysis of traditional folk cultural paper-cutting crafts in China, and to expand the area of fashion design using traditional elements by developing 3D digital fashion design. For herein, the techniques and characteristics of Chinese paper-cutting crafts were investigated. This survey facilitated an analysis of the formative characteristics of battery crafts in contemporary fashion design. As for the analysis case, the case of using battery crafts expressed in modern fashion for 10 years from 2010 to 2024 S/S was selected. The results are as follows. First, the typical characteristics of Chinese paper cutting technology—relief, micro-carved, combined with relief and micro-carved expressive techniques of engraving art effect— can be explored by analyzing contemporary fashion case collections through the perspective and trend of leading traditional culture. Second, in the traditional paper cutting process, most paper-cutting works are expressed in red, but white and black are mainly used in fashion, in addition to the active use of the five colors. Third, the characteristics of contemporary fashion patterns primarily utilize the paper-cutting process, incorporating elements such as plants, animals, and geometric patterns. Fourth, the utilization of paper cutting in 3D digital design offers time and economic benefits, allowing for quick adjustments to various design developments. In contemporary fashion, it is expected that the use of paper cutting can provide useful creativity and value for the inheritance and modernization of traditional culture.

본 연구는 고대 중국 醫學氣功의 발전과정을 시대별 특징과 상호 연관성에 대해서 살펴 보고자 하였다. 그래서 先秦시대와 兩漢시대를 중심으로 醫家와 기타 諸家의 기공 특징을 알아보고 현대의 中醫氣功에 미친 영향에 대해 알아보고자 하였다. 秦漢시기 과학문화가 크게 발전하면서 중국 의학에도 많은 변화가 있었다. 특히, 각종 질병과 장기간 투쟁하는 과정에서 점차 형성, 발전한 독특한 자기 심신 수련법인 중의기공에도 많은 영향을 주었다. 春秋戰國시대에는 諸子百家 등장하고 경쟁하는 과정에서 醫家, 儒家, 道家, 佛家를 중심으로 기공학 발전하였다. 특히, 道家는 三调 이론을 최고 수준으로 상승시켰으며, 후세의 ‘小周天 功’, ‘踵息’, ‘坐忘’, ‘心斋’ 등의 기공법에 영향을 주었다. 儒家는 ‘止于至善’의 방법을 통해 기 공의 수련 과정과 기공이 지적 잠재력을 개발할 수 있다고 하였으며, 静坐의 초기인 坐忘 을 제시하였다. 그리고 諸家의 이론과 수행 방법이 醫學氣功의 이론과 실제에 그 내용이 내포되어 있음을 확인할 수 있었다. 본 연구를 토대로 醫學氣功을 원류를 이해하고, 현대의 치유기공학 발전에 조금이나마 기여가 되길 희망한다.

현대사회에서 미술교육과 미술작품 제작 현장은 정보와 이미 지를 비롯한 폭발적인 성장 속에서 새롭게 전개되고 있다. 이 러한 사회·문화적 방향성의 모색이 필요하고 새로운 관점의 재정립이 요구되는 상황에서 인간과 교육을 둘러싼 사회에서의 미술교육에 대한 새로운 방법론적 접근이 필요하다. 현재 우리 나라 미술교육현장에서 수채화는 점점 도태되어 간다. 화랑가 의 유화 선호, 재료와 도구 사용에 대한 인식, 기법의 난이도 등으로 인해 다른 장르의 그림보다 소외되고 있다. 그 이유 중 가장 큰 문제점은 기초과정을 넘어선 작품 만들기 과정에서 드 러나는데 그것이 바로 보조재료 사용에 대한 미숙함이다. 수채화 제작은 기름을 사용하는 유화와는 달리 물을 사용함으 로 예술의 표현형식과 감상 효과에서 동양인의 체취에 더 친근 감을 주는 매체이다. 수채화 물감을 이용한 작업은 그 자체로 하나의 도전이라고 할 수 있을 정도로 어렵지만, 보조재료를 이 용한 기법을 활용한다면 더 수준 높은 작품성을 발휘할 수 있을 것이다. 수채화에서 중요한 점은 수채화 물감이 투명체 매체라 는 것인데 미세한 입자로 이루어져 있어 어두운색 위에 밝은색 을 덧칠할 수 없다는 것 때문에 작품제작 시 상당한 난관에 부 딪혀 쉽게 작업을 포기하게 되는 것이 현실이다. 본 연구에서는 그런 점을 개선하기 위해 현대미술에서 수채 화 채색작업을 중심으로 <마스킹 액(Masking fluid)> 보조재 료의 활용방안을 제시하고자 한다. 마스킹액을 이용한 여러 가 지 수채화 채색방법과 보조재료의 활용법을 제안함으로써 현장 에서 갖는 문제점에 대해 논의하고, 더욱 질 높은 미술교육과 작품제작에 이바지할 방안을 새롭게 모색하고자 한다.

ATP luminescence measurements (using Relative Light Units, RLU) has been used to assess the levels of bacterial contamination on the surfaces of various materials. However, not much is known about their suitability in assessing bacterial contamination on paper surfaces. This study was conducted to evaluate the feasibility of using ATP luminometers in measuring levels of bacteria contamination on paper surfaces. The three ATP luminometers studied were Clean-Q, smart PD-30, and 3M™ Clean-Trace™ LM1 manufactured by different companies. There were some differences in RLU results among the three ATP luminometers when they were tested with different concentrations of Micrococcus luteus cell suspension. 106 - 107 cells were required in order to effectively detect Bacillus subtilis, Escherichia coli, and Micrococcus luteus on the surfaces of A4 printing sheets (100 cm2) when using the three ATP luminometers. The sizes and physical properties of surface areas varied slightly among the swabs used for the three ATP luminometers. Concentration-specific measurements (RLU) of M. luteus taken from the surfaces of six kinds of paper (fine print paper, medium print paper, ground paper, newsprint paper, practice paper, tracing paper) were possible using the smart PD-30 and LM1 ATP luminometers. ATP detection values of M. luteus varied among the six types of paper. The highest ATP detection values were found on the surfaces of tracing paper. If the RLU value is recorded at the level of 1000, this could indicate a very high bacterial contamination level of 105 to 106 CFU/4 cm2.

본 논문에서는 한국전통게임에 사용되는 접이식 종이구조물(이하 딱지)의 접이과정을 모델링하고 게임의 승리조건을 만족시키는 충돌조건을 유전알고리즘을 이용하여 산정하는 과정을 서술하였다. 딱지는 A4용지 2장으로 구성되는 것을 가정하였다. 접이과정은 강제경계조건을 부여하여 날개부분을 꼬임의 위치로 변형시키고 강체판의 강제경계조건을 이용하여 딱지를 압착하였다. 이후 복원 력에 의한 완화해석을 수행하여 게임에 사용된 딱지의 형상과 응력상태를 구성하였다. 얻어진 동일한 2개의 딱지 중 타격딱지를 주어 진 충돌위치로 강제변위에 의해서 이동시키고 주어진 충돌속력에 대한 충돌해석으로 게임의 진행과정을 해석하였다. 이 때 승리조건 인 피격딱지의 반전을 일으키는 충돌조건을 산정하기 위하여 유전알고리즘을 이용한 최적화해석을 수행하였다. 이 과정에서 효율적 인 해석을 위하여 충돌해석을 2단계로 나누고 1단계의 해석결과 피격딱지에 반전이 발생할 가능성이 있는 경우에만 2단계해석을 진 행하였다. 1단계 해석에서 유전알고리즘의 적합함수는 피격딱지의 방향코사인이었고 2단계해석에서는 속도의 역수로 하여 전체적 으로는 가장 낮은 충돌속력을 가지는 충돌조건을 찾아내고자 하였다. 해석수행결과 다양한 압착두께에 따른 최적의 충돌조건을 찾아 낼 수 있었다.

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.

Korean architecture classifies Banja (the decorated flat of the ceiling visible from the inside) of Royal Palaces into two types: Woomul(water-well, 井) banja, which inserts rectangular wooden board into lattice frame, and paper banja, which applies paper to the flat ceiling. Such classification was established in the 19th century. Before that, Banja was classified according to what was inserted into the lattice frame, either wooden or paper board. At first, the banja that used paper board was widely installed regardless of the purpose or nobility of the building. However, since the 17th century, the use of paper board banja became mostly restricted to Ondol (Korean floor heating system) rooms which are characterized by private usage and the importance of heating, and it was considered inferior to wooden board banja in terms of rank or grace. The contemporary paper banja was mainly installed in low-rank ondol rooms until the late 19th century to early 20th century, when roll-type wallpaper was introduced from the West and the paper banja came to decorate the King’s and Queen’s bedrooms. The traditional paper board banja benefits heat reservation, reduces the weight of the ceiling, and allows the adjustment of the lattice frame size. Furthermore, it can feature unique artistry if covered with blue, white, or red Neung-hwa-ji (traditional flower pattered paper).

In liquid scintillation counting, sample radioactivity is analyzed by measuring photons emitted from counting vials. Quenching effect lowers photon intensity from samples, which leads to lower counting efficiency. So an appropriate quenching correction according to characteristics of samples is important. In this study, the quenching correction for H-3 analysis was conducted according to the characteristics of paper packaging material leached samples. The leached samples are made from H-3 leaching method which is in the process of development for H-3 contamination screening. There are several ways of quenching correction such as internal standard (IS) method, quench correction curve and triple-to-double coincidence ratio (TDCR) method, etc. For quench correction curve, quenched standard set, which has the same matrix as experimental samples, is needed to be prepared. Each leached sample, however, has different matrix and color depending on condition of leaching experiment, which means that it is not capable of preparing standard set having same matrix with the samples. In this study, the counting samples are used for plotting quench correction curve instead of quenched standard set. Spectral quench parameter of the external standard [SQP(E)] is used as quench indicating parameter (QIP). TDCR and counting efficiencies determined by IS method are used as counting efficiencies. The quench curve of TDCR versus SQP(E) has R2 = 0.55 and the curve of efficiency from IS method versus SQP(E) has R2 = 0.99. TDCR is known for approximate counting efficiency, however, TDCR as counting efficiency needs careful use for H-3 analysis of leached samples. The curve used efficiency from IS method is suitable for H-3 analysis of leached samples. In this study, the quench correction curve is prepared for H-3 analysis of leached samples of paper packaging material. SQP(E), TDCR and efficiency from IS method was used as parameters to plot the quench correction curve, and, the efficiency from IS method is suitable for H-3 analysis of the leached samples. The result of this study can be used for H-3 analysis of leached samples of paper packaging material.

With the aim to fabricate flexible, mobile, and low-energy powered electronics, laser treatment of paper-based materials from carbon, cellulose, and natural products may be viable as one of the strategies to achieve this objective as it potentially provides a sustainable and precise patterning of a graphene-based circuit for various emerging electronic applications, such as sensor, robot, energy, and memory devices. Irradiation of high-energy beam for induction of porous-rich graphene or reduction of graphene oxide is easily accomplished from a commercially available laser machine with various laser sources, power, and pulse number setting. Moreover, the process itself can easily be adapted in the various manufacturing sectors due to the technology’s maturity status and its ability to be computer programmed. In comparison to environmental-benign polymer, the selection of paper as a substrate for electronics may introduce a new idea into the design possibility of electronic devices since the paper is not only thin, lightweight, biodegradable, and mechanically stable, but is also able to be assembled into another form and shape simply by traditional origami and kirigami technique for many applications. Here, in this work, recent laser processing strategies for the preparation of graphene either from graphitization of cellulose or deoxygenation of graphene oxide for green electronics are reviewed with brief coverage of the deposition technique of graphene oxide paper prior to laser annealing and discussion on the emerging relevant electronics field that benefitted greatly from the laser-assisted fabrication. To conclude the literature study, a remaining challenge, and prospective outlooks of laser writing of graphene on paper are also highlighted.

Speaker is the converting device which change electric energy to sound energy, and we can easily see the speaker. They are widely used to home and car audio unit, home and industrial alarm device. Sometimes, the alarm sounds cause the environmental noise. Therefore it is important to design the appropriate speaker according to the installed device and position. In order to study the vibration and sound characteristics, the curvature of the cone paper is changed. Finite element method is used to compute the vibration characteristics and mode. Indoor and Vehicle teats are carried out to investigate the non-linear characteristics and the sound characteristics for some car speakers.

진정한 의미에서의 민간예술작품에서 구현하는 것은 겉면에 표출된 화려한 표상할 뿐만 아니라 그 내면을 탐구하는 것, 더욱 이런 예술 풍격을 단조해 낸 불굴의 민족의식과 정감이다. 예로부터 사회의 발전과 계급 분화로 원시 예술의 변천을 거쳐 분리되어 형성된 문인예술, 궁정예술, 종교예술, 민간예술에 이르기까지 이러한 다른 관념을 기반으로 한 예술 문화 종류가 역사의 흐름 속에서 갈등하고 또 끊임없이 서로 연계하며 기반으로 하고 모순, 연계와 융합에서 하나의 완전한 민족 문화를 육성하였다. 오늘에 이르기까지 민간예술문화에서의 순수한 예술 신념은 여전히 줄곧 이른바 고상하고 우아한 예술 문화에 대해 확고한 기초적 역할을 하고있다. 수암만족 민간 전지(剪紙)는 동북 백산흑수사이에 만족 노동 인민이 창조한 역사적 예술 문화의 완벽한 결정체일 뿐만아니라 또한 수암의 전통적 만족 민간 예술 특유한 민족 예술문화 표식이고 동북 지역의 만족 의향 및 옥도 특색의 전통 민간예술의 걸출한 대표이다. 이것은 동북 만족 인민의 지혜의 예술을 포함하고 있으며 중요한 역사적 가치와 문화적 가치가 있을 뿐만 아니라 또한 중요한 예술적 가치와 과학적 가치를 지니고 있으며 전통문화의 결정체이자 화하문명의 보물이다. 지금은 어떤 의미에서 이미 문화브랜드로 된 민간 전지예술이 점차 문화의 수요품으로 되고 있다. 특유의 가치와 방식으로 문화가 널리 전파되는 또 다른 경로로 되고 있다. 그러나 북방 만족 전지를 놓고 말할 때 기나긴 과정에서 아주 많은 문제도 나타났다. 이를테면 제작 형식과 예술 풍격의 혼동, 관련 문화자료내용의 귀납 정리와 발전 전승 등이다. 본 논문은 북방 만족 문화의 대표 특징을 지닌 수암만족 전지를 연구 대상으로 지역 역사, 문화 신앙 등등 방면에 대해 중국 북방 만족 종이 오림이 형성된 근원성 원인을 심도 있게 분석하였다. 이와 동시에 종이 오림 작품이 드러낸 예술 상태에 있어서 다른 지역의 동류 작품들과 전체적 및 개별적 비교를 하여 예술풍격상의 지역문화 차이를 분명히했다. 또 현재를 결부시켜 전지 예술이 사람들에게 대한 의의를 서술하고 전통문화를 발전시키고 전승할 것을 호소했다.

Chinese Idioms are important as a Part of Chinese Vocabulary, Korean learners who use Chinese as a second language understand and grasp the usage of the Chinese-Korean idiom，It will also play a significant role in learning Chinese for Korean learners. A Comparative Study on Chinese and Korean idiom of same patterns of synonyms provides many conveniences and references for Korean Chinese learners, Nevertheless, there are differences in Chinese and Korean of syntactic, semantic and pragmatic functions of idiom of same patterns of synonyms. Therefore, Korean Chinese learners may have some troubles learning and using Chinese idioms. Dissertation takes between Chinese and Korean idiom of same patterns of synonyms from the new HSK level six Vocabulary Outline and two sets of the new HSK level six official test paper as the research subject, make Research and Analysis on Chinese and Korean synonym idioms differences between using frequency and usage of idioms in Chinese and Korean databases, in addition, make a comparative study between Chinese and Korean of syntactic and pragmatic functions of idiom of same patterns of synonyms, both Chinese and Korean idiom of same patterns of synonyms of the meanings are similar, however there are still many differences.