현상학 연구는 질적 연구방법 중에서도 현상의 이면을 밝혀 그 본질을 도출하는 방법론이다. 이런 본래 의 현상학적 연구의 취지를 살려 연구의 성격에 맞춰 현상의 본질을 드러낼 수 있는 다양한 현상학적 방법 론이 적용될 필요가 있다. 하지만 현상학적 방법론은 현실적으로 지오르지(Giorgi)와 반마넨(Van Manen) 의 방법론에 치우쳐 있는 실정이다. 이런 문제의식을 바탕으로 본 연구자는 청소년의 학교폭력 경험에 적용 한 현상학적 자기평가방법의 분석방법을 고찰했다. 이 방법론은 환원과정이 4단계로 구체적이어서 현상학 의 본래 취지인 본질에 도달하는데 적합하다고 생각한다. 구체적으로 학교폭력 피해학생의 심층인터뷰를 활용해 현상학적 자기평가방법의 환원과정을 이 연구에서 보여주었다. 이 현상학적 자기평가방법은 사회복 지학이나 사회학에서 다루는 현상의 본질을 파악하기에 적합한 연구방법이라 할 수 있다.

해상풍력발전 시장의 성장과 함께 해상풍력발전기 설치 선 시장에 대한 기대감이 커지고 있다. 해상풍력발전 시장 내 2030년까 지 약 100척의 설치 선이 필요할 것으로 전망되고 있다. 척당 가격이 3,000∼4,000억 원이라서 일반 운반선보다 고부가가치 시장이다. 특 히, 풍력발전기 용량이 11MW 이상의 대형 설치 선의 수요가 커지고 있다. 중국을 중심으로 아시아 해상풍력발전기 시장의 급성장으로 이 지역에서 운용 가능한 설치 선에 대한 발주에 대한 협의가 많다. 아시아권역 대부분의 해저 지질은 지지 반력이 작은 점토층으로 구성되 어 있다. 이러한 특성에 의해서 설치 선이 작업을 위해 수면 밖으로 오르고 내림 시 스퍼드캔(Spudcan)과 레그(Leg)의 관입 깊이가 크게 발 생한다. 연구에서는 최소 3m에서 최대 21m까지 관입 변수를 이용하여 관입 깊이에 따른 고유 진동 주기, 레그의 구조 안전성 평가 그리고 전복 안전성 지수를 평가하였다. 관입 깊이가 증가하면 고유 진동 주기가 짧아지고, 레그의 모멘트 길이가 짧아져서 구조 강도의 여유 치 가 증가한다. 모든 입사각에서 전복 모멘트에 대해 안전하며, 최댓값은 270도에서 발생한다. 본 연구를 통하여 검토된 조건들은 연약 지반 에서 설치 선의 운용 절차서를 작성 시 관입 깊이에 따라서 레그를 어떻게 운용해야 하는지 판단할 수 있는 중요한 자료로 활용할 수 있 다. 결론적으로 관입 깊이에 따른 레그 구조 안전성을 정확히 파악하는 것은 설치 선의 안전과 직결된 문제이다.

Friction stir spot welding (FSSW) is a solid-state joining process and a rapidly growing dissimilar material welding technology for joining metallic alloys in the automotive industry. Welding tool shape and process conditions must be appropriately controlled to obtain high bonding characteristics. In this study, FSSW is performed on dissimilar materials AA5052-H32 aluminum alloy sheet and SPRC440 steel sheet, and the influence of the shape of joining tool and tool insertion depth during joining is investigated. A new intermetallic compound is produced at the aluminum and steel sheets joint. When the insertion depth of the tool is insufficient, the intermetallic compound between the two sheets did not form uniformly. As the insertion depth increased, the intermetallic compound layer become uniform and continuous. The joint specimen shows higher values of tensile shear load as the diameter and insertion depth of the tool increase. This shows that the uniform formation of the intermetallic compound strengthens the bonding force between the joining specimens and increases the tensile shear load.

This study investigated the effects of exposure frequency, depth of processing, and activity repetition types on vocabulary learning. In total, 78 South Korean fifth-grade students were divided into four conditions. Students in each condition were asked to read a passage with four of the eight target words (exposure: four times) and the other four words (exposure: once) for three days, and to perform the vocabulary activities assigned to each condition. According to the results, exposure frequency and activity repetition type had significant effects on vocabulary learning. Activity repetition type also had a significant interaction effect with exposure frequency and depth of processing. Notably, presenting a word 12 times (4x3) in reading intervals had a more positive impact on vocabulary learning than presenting it three times (1x3), particularly when different vocabulary activities were repeated. Meanwhile, when the same activity was repeated, an activity with a higher depth of processing was more effective for vocabulary learning.

There are analytical methods used for measuring activity when light photons are emitted for scintillating-based analytical application. When this electron returns to the original stable state, it releases its energy in the form of light emission (visible light or ultraviolet light), and this phenomenon is called scintillation. Scintillator is a general term for substances that emit fluorescence when exposed to radiation such as gamma-rays. Radioactivity is all around us and is unavoidable because of the ubiquitous existence of background radiations emitted by different sources. The scintillator contributes to these sensing, and it is expected that the inspection accuracy and limit of detection will be improved and new inspection methods will be developed in the future. Moreover, scintillators are chemical or nanomaterial sensors that can be used to detect the presence of chemical species and elements or monitor physical parameters on the nanoscale. In this study, it includes finding use in scintillating-based analytical sensing applications. A chemical and nanomaterial based sensors are self-contained analytical tools that could provide information about the chemical compositions or elements of their environment, that is, a liquid or even gas condition. Herein, we present an insightful review of previously reported research in the development of high-performance gamma scintillators. The major performance-limiting factors of scintillation are summed up here. Moreover, the 2D material has been discussed in the context of these parameters. It will help in designing a prototype nanomaterial based scintillators for radiation detection of gamma-ray.

With the increasing number of aging buildings across Korea, emerging maintenance technologies have surged. One such technology is the non-contact detection of concrete cracks via thermal images. This study aims to develop a technique that can accurately predict the depth of a crack by analyzing the temperature difference between the crack part and the normal part in the thermal image of the concrete. The research obtained temperature data through thermal imaging experiments and constructed a big data set including outdoor variables such as air temperature, illumination, and humidity that can influence temperature differences. Based on the collected data, the team designed an algorithm for learning and predicting the crack depth using machine learning. Initially, standardized crack specimens were used in experiments, and the big data was updated by specimens similar to actual cracks. Finally, a crack depth prediction technology was implemented using five regression analysis algorithms for approximately 24,000 data points. To confirm the practicality of the development technique, crack simulators with various shapes were added to the study.

In this paper, a dynamic centrifuge model test was conducted on a 24.8-meter-deep excavation consisting of a 20 m sand layer and 4.8 m bedrock, classified as S3 by Korean seismic design code KDS 17 10 00. A braced excavation wall supports the hole. From the results, the mechanism of seismically induced earth pressure was investigated, and their distribution and loading points were analyzed. During earthquake loadings, active seismic earth pressure decreases from the at-rest earth pressure since the backfill laterally expands at the movement of the wall toward the active direction. Yet, the passive seismic earth pressure increases from the at-rest earth pressure since the backfill pushes to the wall and laterally compresses at it, moving toward a passive direction and returning to the initial position. The seismic earth pressure distribution shows a half-diamond distribution in the dense sand and a uniform distribution in loose sand. The loading point of dynamic thrust corresponding with seismic earth pressure is at the center of the soil backfill. The dynamic thrust increased differently depending on the backfill's relative density and input motion type. Still, in general, the dynamic thrust increased rapidly when the maximum horizontal displacement of the wall exceeded 0.05 H%.

Recently, universities of fisheries and institutions related to fisheries are actively carrying out a project to build new fisheries training ships. These new fisheries training ships are significantly larger in size and longer in length than the previous ships. In addition, these new ships basically have space that can accommodate more than 100 crew and passenger. On the other hand, they are excluded from IMO maneuverability evaluation since the size of these ships are still less than 100 m in length (LBP). These results have had an impact on the study of maneuverability of fishing vessels including the fisheries training ships. Against these backgrounds, the authors conducted a study to estimate the maneuvering characteristics of fisheries training ship Baek-Kyung according to depth in order to prepare a maneuvering characteristic index that enables the large fisheries training ships to navigate more safely using a modified empirical formula. It was confirmed that the maneuvering characteristics of Baek-Kyung changed significantly as the values of the hydrodynamic force coefficients changed as the water depth gradually decreased from around 1.5 (approx. 8 m in depth) of the ratio of the water depth to the ship draft. The results of this study will not only help navigators understand the maneuvering characteristics of Baek-Kyung, but also serve as an indicator when navigating in shallow water. In addition, the accumulation of these results will serve as a basis for future study on maneuverability of fishing vessel types.

In KAERI, a site descriptive model for stress field estimation had already been constructed by using integrated field data within KURT site scale. A sub-divided rock block domain containing major fracture zones has spatial rock mass and fault properties. The properties were decided based on the rock classification results of several borehole investigations. Modeling for maximum and minimum horizontal stress field estimation was performed and compared with the in-situ data. As a result, a depth-dependent stress ratio was adopted to obtain numerical results closer to actual in-situ data. Although the results were suitable at a relatively low depth (~500 m), there is still some deviation trend at a deep depth. This study aims to improve these modeling results by incorporating not only depth-dependent stress ratio but also changes in rock mass properties along the depth. The deep borehole of DB2 in the KURT site indicated fracture distribution corresponding to the property changes. Natural fractures are typically randomly oriented, and the fracture frequency decreases with increasing depth. The increase in P-wave velocity log data accompanies these features. A discrete fracture network (DFN) model can be used to simulate fractured rock explicitly, but DFN modeling is not feasible for site scale analysis because of its numerical efficiency. Therefore, as a preliminary model in this study, the effect of fracture distribution was considered by substituting the influence for the depth-dependent property. The properties were estimated from the fracture frequency and P-wave velocity log data. The influence of elastic modulus and density on the site stress field was dominant, with decreasing the deviation trend between modeling and in-situ data at a deep depth. Considering that the depth of the repository construction is within about 500 m, it may not be necessary to consider the change of rock properties with depth. However, it was determined that the rock property effect might need to be considered when the loading conditions change due to subsidence in the long-term evolution scenario. Continuously, this site descriptive modeling will be interdependently conducted with a representative DFN block model for deriving equivalent properties in fractured rock.

This paper reports the results of an experimental examination using X-rays to test annealing materials for lapped bearing steel (STB2), to confirm the validity of the weighted averaging analysis method. The distribution behavior for the sin diagram and the presence or absence of differences in the peak method, half-value breadth method, and centroid method were investigated. When lapping the annealed bearing steel (STB2) material, a residual stress state with a non-directional steep gradient appeared in the surface layer, and it was found that the weighted averaging analysis method was effective. If there is a steep stress gradient, the sin diagram is curved and the diffraction intensity distribution curve becomes asymmetric, resulting in a difference between the peak method, half-value breadth method, and centroid method. This phenomenon was evident when the stress gradient was more than 2~3 kg/mm2/μm. In this case, if the position of the diffraction line is determined using the centroid method and the weighted averaging analysis method is applied, the stress value on the surface and the stress gradient under the surface can be obtained more accurately. When the stress gradient becomes a problem, since the curvature of the sin diagram appears clearly in the region of sin > 0.5, it is necessary to increase the inclination angle  as much as possible. In the case of a lapping layer, a more accurate value can be obtained by considering  in the weighted averaging analysis method. In an isotropic biaxial residual stress state, the presence or absence of  can be determined as the presence or absence of strain for sin≈0.4.

Background: Virtual reality (VR) programs based on motion capture camera are the most convenient and cost-effective approaches for remote rehabilitation. Assessment of physical function is critical for providing optimal VR rehabilitation training; however, direct muscle strength measurement using camera-based kinematic data is impracticable. Therefore, it is necessary to develop a method to indirectly estimate the muscle strength of users from the value obtained using a motion capture camera. Objects: The purpose of this study was to determine whether the pedaling speed converted using the VR engine from the captured foot position data in the VR environment can be used as an indirect way to evaluate knee muscle strength, and to investigate the validity and reliability of a camera-based VR program. Methods: Thirty healthy adults were included in this study. Each subject performed a 15-second maximum pedaling test in the VR and built-in speedometer modes. In the VR speedometer mode, a motion capture camera was used to detect the position of the ankle joints and automatically calculate the pedaling speed. An isokinetic dynamometer was used to assess the isometric and isokinetic peak torques of knee flexion and extension. Results: The pedaling speeds in VR and built-in speedometer modes revealed a significantly high positive correlation (r = 0.922). In addition, the intra-rater reliability of the pedaling speed in the VR speedometer mode was good (ICC [intraclass correlation coefficient] = 0.685). The results of the Pearson correlation analysis revealed a significant moderate positive correlation between the pedaling speed of the VR speedometer and the peak torque of knee isokinetic flexion (r = 0.639) and extension (r = 0.598). Conclusion: This study suggests the potential benefits of measuring the maximum pedaling speed using 3D depth camera in a VR environment as an indirect assessment of muscle strength. However, technological improvements must be followed to obtain more accurate estimation of muscle strength from the VR cycling test.

Clothing, as a signsystem, implies many different meanings according to different circumstances. Korean fashion designers’ designs also imply various meanings. Therefore, the purpose of this study is the exploration of Korean fashion designers’ design characteristics through Greimas’ Semiotic Square. As sublimity is the most representative characteristic of modern fashion design, this study discusses the in-depth aesthetic meaning innated in Korean fashion design through the semiotic square proposed by Greimas. To fulfill this goal, Korean fashion designers were sought after on the internet; consequently, four Korean designers became subjects for the analysis. Their collections were analyzed according to predefined criteria adopted and modified from previous studies. Sublimity characteristics were applied to Greimas’ and Floch’s semiotic squares for further interpretation. Results of the study indicate that sublimity, which is typically found in Korean fashion designs, varies depending on different points of view. In terms of culture, this study discovered a relationship of contrariety between sublimity and beauty. This finding opposes the theory of Greimas’ semiotic square, in which sublimity stands as a contradictory of the technician. According to the culture industry theory, suggested by Held, the technician is an implication of sublimity. Through a technician, sublimity may pose as a complementarity or implication of beauty. Finally, sublimity might substitute beauty as well; furthermore, it constitutes practical valorization in the semiotic square of Floch. Moreover, the artist present as a ludic valorization stands as a contradictory, while art, serving as a utopian valorization, enacts as a contrary.

목적: 국내에서 판매되는 4개 제조사의 15개 제품들의 소프트 콘택트렌즈 간의 새그깊이 차이를 비교해보고 렌즈들 이 상대적으로 가파른지 혹은 편평한지에 대해 알아보고자 하였다. 방법 : 식염수가 포함된 폴리스티렌 재질의 사각페트리디쉬와 기준선이 있는 기준체를 사용하여 소프트 콘택트 렌즈의 새그깊이를 사진 촬영을 통해서 측정하였다. 사용된 콘택트렌즈는 시중에서 판매되는 -3.00 D인 15개 제 품의 소프트 콘택트렌즈이었다. 결과 : 측정된 렌즈의 새그깊이는 3.68±0.16 mm로 3.42~3.96 mm의 범위를 보여 주었다. 계산된 렌즈의 새그깊이는 3.67±0.15 mm이었고, 일부 렌즈에서 상대적으로 큰 차이가 있었다. 측정된 새그깊이 별 계산된 기 본커브는 8.58±0.16 mm이었고, 제조 회사의 제시된 기본커브는 8.59+0.12 mm 이었다. 일부 렌즈에서 상대적 으로 큰 차이가 있었다. 결론 : 국내에서 판매되는 15개의 소프트 콘택트렌즈 제품들의 새그깊이 차이를 비교할 수 있었고, 측정된 새 그깊이와 그에 따른 계산된 기본커브를 통해 렌즈들이 상대적으로 가파른지 혹은 편평한지에 대한 추가적인 정보 를 얻을 수 있었다.

목적: 입체경에서 기하학적 단안 단서를 타깃의 배경에 적용하여 거리감 지각의 변화를 확인하였으며, 가상현실에 서 거리감의 효과적인 구현 방법을 분석하였다. 방법 : 타깃의 배경에 사용된 단안 단서는 결의 밀도, 선형 전망, 대기 전망 및 음영이었다. 결의 밀도 단서 및 선형 전망 단서는 선의 개수와 대비도, 대기 전망 단서 선의 개수와 대비도 차이, 음영 단서는 음영의 농도와 범위 를 각각 변수로 선정하였다. 타깃은 모든 대상자에게 무작위로 제시하였으며, 원거리 및 근거리에서 검사 후 5점 척도의 설문조사를 통해 거리감 변화를 확인하였다. 또한, 거리감 변화에 대해 대상자의 지각이 의도한 것과 일치 했을 때 긍정적, 그렇지 못했을 때 부정적 효과로 구분하고, 거리감 변화의 효율을 평가하였다. 결과 : 원거리와 근거리 모두 단안 단서의 변수에 대해 의도한 것과 대부분 일치하는 것으로 확인되었으며, 근 거리는 일부 변수 조정 항목에서 다소 차이가 발생했다. 또한, 거리감 변화 효과는 결의 밀도 단서 및 대기 전망 단서에 의해 선의 개수가 변화했을 가장 높았고, 일부 유의하였다(p<0.050). 결론 : 입체경에서 대상자의 거리감은 주시거리가 동일해도 타깃의 배경에 적절한 단안 단서를 제공하여 조정 이 가능한 것으로 확인되었다. 원거리 및 근거리 입체시표의 기하학적 단서 중 결의 밀도 및 대기 전망 단서에서 선의 개수를 변화시켰을 때 거리감 지각 변화의 효과가 가장 높은 것으로 나타났다. 보다 정확한 거리감 지각을 위해서는 조절 및 폭주 변화 등을 추가한 후속 연구가 필요할 것으로 판단된다.

본 연구는 신축이음장치를 설치하지 않고 상부구조와 교대를 일체화하는 무조인트 교량의 거동해석에 대한 것이다. 선행연구에서 는 민감도 해석을 통해 무조인트 교량의 최적 수치해석 모들은 상대오차에 의한 변위 형상의 유사성과 정밀도를 유지하면서 실용적 인 shell 요소 기반 모델이 가장 적합한 것으로 판단하였다. 따라서 본 연구에서는 shell 요소 기반 모델과 solid 요소 모델간의 벽체 깊 이별 거동 분석을 수행하였다. 또한 MIDAS Civil과 ABAQUS를 사용하여 해석 프로그램간 비교를 하였다. 반일체식 교대 교량인 A 교와 B 교의 경우 선형 스프링 조건인 Case 1, +30°C의 경우 지반반력으로 인해 벽체 깊이가 깊어질수록 변위가 감소하였다. -30°C의 경우는 지반반력이 작용하지 않으므로 변위 변화가 미소하였다. 완전일체식 교대 교량인 C 교와 흉벽일체식 교대 교량인 D 교의 경우 말뚝의 저항력으로 인하여 +30°C, -30°C 모두 벽체 깊이가 깊어질수록 변위가 감소하였다. 해석 프로그램간 비교는 Case 1의 경우 상 대오차는 미소하였으나 Case 2의 경우는 차이가 발생하였다. 이는 해석 프로그램에 따른 비선형 스프링의 적용 방식의 차이로 인한 것으로 판단된다.

본 연구는 2018, 2019, 2020년 논에서의 배수 깊이에 따른 식용(일미찰), 사료용 옥수수(광평옥) 그리고 장류콩(대원콩) 및 나물콩(해품콩)에 대한 생육 특성과 수량 구성요소를 비교 검토하고자 수행하였다. 논의 배수로 폭은 80cm로 고정하고 깊이를 20cm과 40cm로 각각 달리하였다. 연차간에 있어서 일미찰은 간장, 착수고, 이삭무게 이삭착립장 및 이삭 수량이 고도의 유의성이 나타났으며, 광평옥도 일미찰과 유사한 반응을 보였다. 배수로 깊이에서는 40cm가 20cm보다 수량이 고도로 유의하게 높았다. 한편, 연차간 해품콩은 간장, 분지, 꼬투리 수, 미 성숙 종자률, 100립 중 및 종실 수량에 고도의 유의한 차이를 보였다. 반면, 대원콩은 간장, 100립중, 수량간에 고도로 유의하였다. 배수로 깊이 간에는 해품콩과 대원콩의 수량은 통계적 유의한 차이는 나지 않았지만 20cm보다 40cm에서 수량이 약간 높았다. 본 연구 결과 옥수수의 수량은 배수로 깊이에서 따라 통계적인 고도 유한 차이를 보였으나 콩은 통계적인 차이는 나타나지 않았으나 40cm이 20cm보다는 높았다. 한편 콩은 미성숙 종자률은 배수로 깊이에 효과적으로 차이를 보였다. 따라서 논에서 옥수수 또는 콩을 재배시 가장자리에 20cm 배수로 보다는 40cm 배수로 설치를 권장한다.

Organic reagent is considered as one of the most promising reductants for deeply removing vanadium (V) trichloride oxide ( VOCl3) from crude titanium tetrachloride ( TiCl4). Nevertheless, indeterminate active component and unclearly removal mechanisms appear to be the obstacles to separate VOCl3 from TiCl4 using organic reagent. Herein we conduct the experiment to explore it. Firstly, the organic reagents are obtained from enterprise (noted as EOR1– EOR7), and then it is determined that carbon aromatic ( CA) is the active component for removing VOCl3. Furthermore, modified organic reagents (noted as MOR1– MOR4) are prepared via adding aromatic hydrocarbon oil and stearic acid to EOR7, then indicating that MOR3 is endowed with the best capacity to remove VOCl3. In addition, the residues obtained from distillation experiment are comprehensively analyzed (using X-ray diffraction (XRD), transmission electron microscope (TEM) and scanning electron microscope (SEM) etc.), revealing that porous amorphous carbon that deriving from MOR, plays an excellent role in removing VOCl3 from TiCl4 system. Therefore, the removal mechanisms can be explained like that porous amorphous carbon reduces VOCl3 into insoluble vanadium (III) chloride ( VCl3) and vanadium (IV) oxide dichloride ( VOCl2), and then they are separated via adsorption process, with the help of porous amorphous carbon.