Unidirectionally solidified TiAl alloys were prepared by optically-heated floating zone method at growth rates of 10 to 70 mm/h in flowing argon. The microstructures and tensile properties of these crystal bars were found to depend strongly on the growth rate and alloy composition. TiAl alloys with composition of 47 and 50 at.%Al grown under the condition of 10 mm/h showed Ti3Al(α2)/TiAl(γ) layer structures similar to single crystals. As the growth rate increased, the alloys with 47 and 50 at.%Al compositions showed columnar-grain structures. However, the alloys fabricated under the condition of 10 mm/ h had a layered structure, but the alloy with increased growth rate consisted of γ single phase grains. The alloy with a 53 at.%Al composition showed a γ single phase regardless of the growth rate. Room-temperature tensile tests of these alloys revealed that the columnar-grained material consisting of the layered structure showed a tensile ductility of larger than 4 % and relatively high strength. The high strength is caused by stress concentration at the grain boundaries; this enhances the secondary slip or deformation twinning across the layered structure in the vicinity of the grain boundaries, resulting in the appreciable ductility.
In the seismic design of building structural members, due to the complexity of the placement of PC steels in prestressed concrete members, it is necessary to review and define the definition of member damage in comparison with reinforced concrete members.In this study, the results of past experiments compared with the calculation results by ‘section Analysis Method’, with the aim of reviewing the precision of calculation results when member damage evaluation is performed using the section analysis method. Furthermore, it is also compared with the calculation results by the ‘split Element Method’.In addition, parametric studies were carried out, and the influence of the difference between the amount of PC steels and reinforced bar on the residual strain was examined.
This study presents a sustainable design method to optimize the embodied energy and CO2 emission complying with the design code for reinforced concrete column. The sustainable design method effectively achieves the minimization of the environmental load and energy consumption whereas the conventional design method has been mostly focused on the cost saving. Failure of reinforced concrete column exhibits compressive or tensile failure mode against an external force such as flexure and compression; thus, optimization analyses are conducted for both failure modes. For the given sections and reinforcement ratios, the optimized sections are determined by optimizing cost, embodied energy, and CO2 emission and various aspects of the sections are thoroughly investigated. The optimization analysis results show that 25% embodied energy and 55% CO2 emission can be approximately reduced by 10% increase in cost. In particular, the embodied energy and CO2 emission were more effectively reduced in the tensile failure mode rather than in the compressive failure mode. Consequently, it was proved that the sustainable design method effectively implements the concept of sustainable development in the design of reinforced concrete structure by optimizing embodied energy consumption and CO2 emission.
The paper presents a new short-term dynamic displacement estimation method based on an acceleration and a geophone sensor. The proposed method combines acceleration and velocity measurements through a real time data fusion algorithm based on Kalman filter. The proposed method can estimate the displacement of a structure without displacement sensors, which is typically difficult to be applied to earthquake or fire sites due to their requirement of a fixed rigid support. The proposed method double-integrates the acceleration measurement recursively, and corrects an accumulated integration error based on the velocity measurement, The performance of the proposed method was verified by a lab-scale test, in which displacement estimated by the proposed method are compared to a reference displacement measured by laser doppler vibrometer (LDV).
Dans cette étude, les commentaires des professeurs sur la capacité de communication et la capacité de traduction ont été conçus et formulés en utilisant une activité paraphrasante basée sur la théorie interprétative de la traduction dans une classe de traduction au niveau universitaire. La réaction des élèves lors du cours de traduction a ensuite été analysée . Le but de cette étude était d'étudier la valeur éducative de ce type de commentaires des professeurs et de trouver la méthode la plus efficace de rétroaction des professeurs appropriée pour les étudiants qui apprennent la traduction du français vers le coréen. Les principaux résultats des analyses de commentaires des professeurs sont résumés comme suit: (1) Certaines des tâches qui semblaient difficiles pour les élèves ont été classées en éléments de capacité de traduction et de capacité de communication. Les commentaires du professeur, organisés en capacité de traduction et de communication par la méthode d'enseignement par la paraphrase en fonction des difficultés rencontrées par les élèves dans leurs tâches, ont généralement une influence positive sur la capacité de traduction des étudiants, et en particulier la capacité linguistique des élèves. (2) Comme une méthode répétitive d'apprentissage des synonymes, les commentaires répétés des professeurs par la paraphrase ont été trouvés pour aider à améliorer la capacité linguistique des élèves. (3) Il était également possible de voir le potentiel de la compréhension par les élèves des stratégies d'apprentissage autonomes basées sur la méta-cognition en termes de lecture, de traduction et d’écriture.
Due to the rapid change of global business environment, the growth of China’s steel industry and the inflow of cheap products, domestic steel industry is faced on downward trend. The change of business paradigms from a quantitative growth to a qualitative product is needed in this steel industry. In this environment, it is very important for domestic steel distribution companies to secure their competitiveness by selecting good supply companies through a efficient procurement strategy and effective method. This study tried to find out the success factors of steel distribution industry based on survey research from experts. Weighted values of each factors were found by using AHP (analytic hierarchy process) analysis. The weighted values were applied to DEA(data envelopment analysis) model and eventually the best steel supply company were selected. This paper used 29 domestic steel distribution firms for case example and 5 steps of decision process to select good vendors were suggested.This study used quality, price, delivery and finance as a selection criteria. Using this four criterions, nine variable were suggested. Which were product diversity, base price, discount, payment position, average delivery date, urgency order responsibility and financial condition. These variables were used as a output variable of DEA. Sales and facilities were used as an input variable. Pairwise comparison was conducted using these variables. The weighted value calculated by AHP pairwise comparison were used for DEA analysis. Through the analysis of DEA efficiency process, good DMU (decision making unit) were recommended as a steel supply company. The domestic case example was used to show the effectiveness of this study.
Thin-film nanocomposite (TFN) reverse osmosis (RO) membranes have drawn keen attention to overcome the limitations in polymeric desalination membranes. However, preparation of TFN-RO membranes using conventional protocol involves problems such as a waste of expensive nanomaterials and inaccurate control of loading amount. In this work, we suggest a new protocol of TFN-RO membranes through pre-adsorption of carbon nanotubes (CNTs) on the support layer using spray coating. SEM images of spray coated supports showed well-dispersed adsorption of CNTs compared with those using conventional method. RO performances of TFN membranes using spray coating were comparable to conventionally prepared membranes. Thus, this new protocol is useful to prepare TFN membranes in terms of cost-efficiency.
최근 먹는물 수질 기준 강화에 따라 정수처리시설에 고분자 나노여과(Nanofilatration, NF)막이 도입되고 있으나, 화학 세정으로 인한 막의 주기적인 교체가 불가피하다. 반면, 세라믹 막은 강한 물리/화학적 내구성을 지니고 있으나, NF막 제조 기술의 한계로 상용화되지 못하고 있다. 연구에서는 알루미나-지르코니아 나노물질을 여과코팅 방법으로 세라믹 막의 평균 공극 크기를 감소시켰고, SEM-EDX, 분획분자량, 자연유기물, 염(CaCl2) 제거를 통해 막의 특성 변화를 분석하였다. 제조된 막은 분획분자량이 400 Da.이고, Suwannee river 자연유기물과 염의 제거율이 각각 92%와 58%였다. 이취미 물질인 지오스민 제거평가 결과, 실험조건에서 65%의 지오스민이 제거됨을 확인하였다.
We report on a unique fabrication technique, DSC for high performance PA TFC RO membranes. DSC allows the simultaneous and continuous spreading of two reactive monomer solutions to create an unsupported PA layer, which is then adhered onto a porous support to form a membrane. DSC facilitates the characterization of the PA layer structure by easily isolating it. The DSC-PA layer exhibits a thinner and smoother structure with a more wettable and less negatively charged surface than one prepared via conventional interfacial polymerization (IP). DSC enables the formation of an extremely thin (~9 nm) and dense PA layer using a very low MPD concentration, which is not feasible by conventional IP. Importantly, the DSC-assembled membrane shows the excellent water flux and NaCl rejection, exceeding both the IP control and commercial RO membranes.
Various morphologies of copper oxide (CuO) have been considered to be of both fundamental and practical importance in the field of electronic materials. In this study, using Cu (0.1 μm and 7 μm) particles, flake-type CuO particles were grown via a wet oxidation method for 5min and 60min at 75 oC. Using the prepared CuO, AlN, and silicone base as reagents, thermal interface material (TIM) compounds were synthesized using a high speed paste mixer. The properties of the thermal compounds prepared using the CuO particles were observed by thermal conductivity and breakdown voltage measurement. Most importantly, the volume of thermal compounds created using CuO particles grown from 0.1 μm Cu particles increased by 192.5% and 125 % depending on the growth time. The composition of CuO was confirmed by X-ray diffraction (XRD) analysis; cross sections of the grown CuO particles were observed using focused ion beam (FIB), field emission scanning electron microscopy (FE-SEM), and energy dispersive analysis by X-ray (EDAX). In addition, the thermal compound dispersion of the Cu and Al elements were observed by X-ray elemental mapping.
2ZrO2·P2O5 powder, which is not synthesized by solid reaction method, was successfully synthesized through PVA solution method. In this process, the firing temperature and the PVA content strongly affected the crystallization behavior and final particle size. A stable α-phase 2ZrO2·P2O5 was synthesized at a firing temperature of 1200 oC and holding time of 4 h. β-phase 2ZrO2·P2O5 was observed, with un-reacted ZrO2 phases, for firing temperatures lower than 1200 oC. In terms of the PVA content effect, the powder prepared with a PVA mixing ratio of 12:1 showed stable α-phase 2ZrO2·P2O5; however, the β-phase was found to co-exist at relatively higher PVA content. The synthesized α-phase 2ZrO2·P2O5 powder showed an average particle size of 100~250 nm and an average thermal expansion coefficient of −2.5 × 10−6/oC in the range of room temp. ~800 oC.
Shape analysis ought to be emphasized in the teaching of Chinese characters. The primary methods to analyze the form of Chinese characters are incarnated in ShuoWenJieZi includeing analysis on component function, analysis on form variation and analysis on isomorphic part, all of which afford us as references that merit academic attention in modern teaching of Chinese characters. The paper introduces the method of structure analysis from ShuoWenJieZi, focusing on how to draw lessons from these approaches in the teaching of Chinese characters and illustrating key points in practical application as well as effects that may achieve.
In the current administration, the government's main policies for youth employment and job creation are recognized by the Ministry of National Defense as a special environmental group. In particular, we believe that the self-help efforts of the advanced armed forces of the military, which are being pursued by the military, will fully demonstrate synergies with the current government policies. For this purpose, this study focuses on the people who are the targets of the youth employment, and suggests ways for them to have better jobs and values after the whole world. In accordance with the policy trends of job creation and job creation, we plan to propose a plan to link the national technical qualifications of the Korea Human Resources Development Service with the various projects currently underway for an average of 250,000 human resources development methods of 250,000 soldiers each year. This study suggests the link between IP (criticality performance) analysis and the Boston Consulting Group 's matrix (BCG Matrix) on the relevance of military human resource operations and qualifications. The results will be presented in conjunction with the military-oriented development projects of advanced countries currently under military control.
Volunteer is defined as a person who offer service for social welfare work without pay voluntarily and people who recognize the importance of volunteer activity and engage in volunteer work in government offices and non-governmental organizations. However, the disaster protection for the volunteers is still out of the law’s boundary. The volunteer in volunteer organizations, social welfare organization as well as teenage volunteer are now protected in nation through private health insurance but its coverage is limited and the guarantee level is not sufficient to protect volunteer. If volunteers cannot be protected from industrial accidents or paid proper compensation to realize their human dignity by assuring a basic right to live, it leads to serious loss personally and socially. If the volunteers are protected by occupational health and safety insurance that functions as social insurance and the industrial accident risk gets removed, it will contribute to invigorate the volunteer activities and thus, legal improvement and institutional strategy must be required so that volunteers enjoy various insurance benefits in Industrial Accident Insurance.
The background of this study is to establish a systematic development process for SSD(Solid State Drive) which is being watched as the next generation auxiliary memory device and to make stable production. In order to do so, we select the two products that have been developed and classify and analyze all defects generated in each product by type and process of defects. The root cause of the fault and its background were reflected in the contradiction matrix of TRIZ's technical contradiction, and the improvements suggested in the 40 inventive principles were reflected in the test case design methodology of each process. Finally, this study suggests a process optimization method for systematic development.
Artillery fire power due to effectiveness which is hard to predict well-planned and surprising attack can give a fear and shock to the personnel and is a very core weapon system and takes a critical role in wartime. Therefore in order to maximize operational effectiveness, Army required protecting artillery and takes a quick attack action through rapid construction of artillery’s positions. The artillery use artillery’s position to prevent exposure by moving to other position frequently. They have to move and construct at new artillery’s positions quickly against exposing existed place by foe’s recognition. These positions should be built by not manpower but engineering construction equipment. Because artillery positions have to protect human and artillery equipment well and build quickly. Military engineering battalion have lots of construction equipment which include excavator, loader, dozer, combat multi-purposed excavator, armored combat earthmover dump truck and so on. So they have to decide to optimal number of Team combining these equipments and determine construction sequence of artillery’s position in operational plan. In this research, we propose to decide number of Team efficiently and allocate required construction’s positions for each Team under constraints of limited equipments and time. To do so, we develop efficient heuristic method which can give near optimal solution and be applied to various situation including commander’s intention, artillery position’s priority or grouping etc. This heuristic can support quick and flexible construction plan of artillery positions not only for using various composition’s equipment to organize Teams but also for changing quantity of positions.
본 연구에서는 강풍 위험 모델과 강풍 취약도 모델을 개발하여 옥외 광고물의 강풍 위험도를 정량적으로 평가하였다. 강풍 위험 모델과 강풍 취약도 모델 모두 확률론적 접근법인 몬테카를로 모사 모형을 적용하여 개발되었으며, 강풍 위험도 모델은 평가된 강풍 위험과 강풍 취약도의 수학적 계산을 통해서 평가되었다. 강풍 위험은 국내 내륙과 해안지역의 대도시인 서울과 부산 지역에 대하여 평가되었으며, 강풍 취약도 모델은 현장 조사와 문헌 조사를 통하여 파악된 10종의 벽면 이용형, 8종의 돌출형 옥외 광고물을 대상으로 개발되었다. 강풍 위험도에 영향을 미치는 요인을 파악하기 위하여 지표조도구분, 옥외 광고물의 형태, 설치 지역, 설치 높이 등에 따른 강풍 위험도를 정량적으로 평가하였다. 본 연구에서 제안한 강풍 위험도 평가 방법은 강풍으로 인한 옥외 광고물의 손실 추정 및 피해 저감 대책 수립을 위하여 활용될 수 있을 것으로 판단된다.
Industry Foundation Classes(IFC)는 Building Information Modeling(BIM)을 위한 표준 데이터 스키마로 정보의 상호운 용성 확보를 위한 핵심이지만, 건물만을 대상으로 하고 있어 토목 시설물에 적용하기에는 한계가 있다. 이에 따라 기존 IFC 에 토목 시설물을 위한 새로운 요소를 추가하는 연구가 진행되었지만, 상용 소프트웨어가 해당 기능을 추가하기 전에는 새 로운 스키마를 활용할 수 없다. 본 연구에서는 토목 시설물에 적용하기 위한 IFC 데이터 스키마 활용 방안을 제시하고, 토목 시설물을 위한 확장 요소와 기존 IFC 요소와의 정보 매핑을 통한 확장 IFC기반의 토목 시설물 정보모델링 방법을 제시하였 다. 그리고 철도의 궤도 및 침목에 대한 IFC 확장 스키마를 제시하고 제시한 방법을 적용하여 그 활용성을 검증하였다.
1차원 등엔트로피 모델과 통합된 경계층 적분법은 초음속 노즐의 설계과정에서 내열재 표면의 열전달을 예측하는데 효과 적으로 사용되고 있지만 노즐 목과 같이 2차원 효과와 경계층과 노즐 코어유동의 상호작용이 발생하는 지점에서는 경계층 외부유동 해석의 부정확성으로 해석의 정확도가 감소한다. 따라서 본 연구에서는 경계층 적분법을 이용한 열전달 예측의 정 확도를 향상시키기 위해 CFD를 이용하여 2차원 효과와 노즐 코어유동의 상호작용이 고려된 경계층 외부유동 조건을 도출 하고 이를 경계조건으로 하는 해석기법을 개발하였다. 오일러 모델과 SST k-ω 모델을 CFD로 해석하여 경계조건으로 적용 했으며 계산방법을 검증하기 위해 선행문헌의 실험노즐에 대해 해석을 수행하였다. 계산 결과 CFD를 통해 경계층 외부유동 조건을 도출한 해석에서 노즐 열전달의 정확도가 향상되는 것을 확인하였으며 특히 노즐 목 후방과 팽창부에서의 차이가 크 게 나타났다. SST k-ω모델로 도출된 계산결과는 1차원 등엔트로피 모델과 비교 시 팽창부에서 실험결과와의 오차가 16% 감소하였다. 본 연구에서 개발된 해석기법은 향후 로켓노즐의 내열설계에 유용하게 사용될 것으로 평가된다.
본 논문에서는 반응표면법과 다목적최적화 기법을 이용한 유한요소모델개선기법의 절차를 제안하고 이를 저층의 철근콘 크리트건물의 모델개선에 적용하였다. 대상건물은 전단벽 신설 및 댐퍼부착을 위한 부재의 강재보강을 통해 내진보강이 이 루어진 건물로서 보강전후에 소형 가진기를 이용한 진동실험을 실시하여 동특성을 구하였다. 대상건물의 개선에 사용된 변 수는 기존콘크리트, 신규타설된 콘크리트, 조적의 탄성계수, 신축줄눈부의 스프링계수, 강재보강된 부재의 유효강성비이다. 보강전후 건물의 초기모델을 구축한 후 중심합성법에 따라 개선변수의 값을 변화시키면서 얻은 해석결과를 통해 고유진동 수의 오차와 모드형상의 오차를 나타내는 2개의 반응함수를 구하고, 이를 다목적최적화의 목적함수로 사용하였다