Organic-inorganic hybrid coating films have been used to increase the transmittance and enhance the physical properties of plastic substrates. Sol-gel organic-inorganic thin films were fabricated on polymethylmethacrylate (PMMA) substrates using a dip coater. Metal alkoxide precursor tetraethylsilicate (TEOS) and alkoxy silanes including decyltrimethoxysilane (DTMS), 3-glycidoxypropyltrimethoxysilane (GPTMS), phenyltrimethoxysilane (PTMS), 3-(trimethoxysilyl)propyl methacrylate (TMSPM) and vinyltrimethoxysilane (VTMS) were used to synthesize sol-gel hybrid coating solutions. Sol-gel synthesis was confirmed by the results of FT-IR. Cross-linking of the Si-O-Si network during synthesis of the sol-gel reaction was confirmed. The effects of each alkoxy silane on the coating film properties were investigated. All of the organicinorganic hybrid coatings showed improved transmittance of over 90 %. The surface hardness of all coating films on the PMMA substrate was measured to be 4H or higher and the average thickness of the coating films was measured to be about 500 nm. Notably, the TEOS/DTMS coating film showed excellent hydrophobic properties, of about 97°.

This study intends to use the possibility of an eco-friendly alternative fuel to be applied to ships as a sample manufacturing method for ship MGO and bioethanol mixed fuel oil as basic evidence. The components of the manufactured mixed fuel oil were analyzed using the ISO-8217 standard testing method. As a result of analysis showed that in the lower calorific value decreased to 43030J/g at BE0 fuel and 37010J/g at BE30 fuel. The high calorific value decreased to 46.065MJ/kg at BE0 fuel and 39.460MJ/kg at BE30 fuel. The density decreased to 840.8kg/m3 at BE0 fuel and 837.0kg/m3 at BE30 fuel. In the case of flash point it was 67.5℃ when BE0, and decreased to less than 40.0℃ when BE10 to BE30. Finally the Kinematic Viscosity was 3.011mm2/s at BE0 and decreased to 2.502mm2/s at BE30.

Currently, Korea is considering a disposal system based on Sweden’s KBS-3 model to dispose of high-level waste. The disposal system uses a multi-barrier concept to protect high-level waste with canister, buffer, backfill, and natural rock. In Korea, copper and iron are being considered for external and internal canisters, and bentonite is being considered as a buffer material. This is a similar choice to many overseas disposal systems. However, unlike the rolling, extrusion, and forging manufacturing methods being considered overseas for manufacturing external canister, domestic research is currently underway on manufacturing external copper canister using cold spray coating. The canister manufacturing method may vary depending on unit cost and manufacturing convenience. However, the properties of metal vary slightly depending on the manufacturing method of the metal. In this case, the characteristics of the canister may vary slightly depending on the canister manufacturing method, and eventually the corrosion resistance may also vary slightly. In order to understand how the copper canister manufacturing method affects corrosion resistance, corrosion rates were calculated and compared through electrochemical corrosion experiments at domestic groundwater ion concentration.

서론 : 본 연구에서는 보조기의 전통적인 제작방법과 3D 프린팅 방법과의 비교를 통해 향후 임상 적용 가능성과 작업치료 교육 과정에의 도입 가능성에 대해 고찰하고자 한다. 본론 : 작업치료사들이 전통적으로 보조기를 제작하는 과정과 3D 프린팅 방법을 사용한 보조기 제작 과정을 알아보고 프 린팅 방식과 사용되는 재료, 신체를 측정하는 방법에 대해 비교하였다. 전통적인 제작방법이 가지는 한계와 3D 프린팅 방법에 의한 제작에는 각각의 장단점이 존재하였고 임상적으로 적용하기 위해서는 현실적으로 해결해야 할 부분이 존재 하였다. 결론 : 3D 프린팅 기술이 재활치료 분야에서 주목받기 시작하고 있어 향후 작업치료 분야에서도 임상적용이 될 날이 다가 올 것이라고 예측할 수 있다. 이러한 임상에서의 변화에 적응하고 새로운 시대에 맞는 새로운 치료적 적용을 위한 보조기 제작법을 교육할 필요가 있으며 기존의 전통적인 방법으로 손 보조기를 제작하는 방법을 교육함과 더불어 시대에 맞는 새로운 기술을 작업치료교육에 도입하기 위한 노력이 필요할 것이다.

To improve the shortcomings and expand the advantages of the single-roll melt drag method, which is a type of continuous strip casting method, the melt drag method with a molding belt is applied to AZ31 magnesium alloy. By attaching the forming belt to the melt drag method, the cooling condition of the thin plate is improved, making it possible to manufacture thin plates even at high roll speed of 100 m/min or more. In addition, it is very effective for continuous production of thin plates to suppress oxidation of the molten metal on the roll contact surface by selecting the protective gas. As a result of investigating the relationship between the contact time between the molten metal and the roll and the thickness of the sheet, it is possible to estimate the thickness of the sheet from the experimental conditions. The relationship between the thin plate thickness and the grain size is one in which the thinner the thin plate is, the faster the cooling rate of the thin plate is, resulting in finer grain size. The contact state between the molten metal and the roll greatly affects the grain size, and the minimum average grain size is 72 μm. The thin plate produced using this experimental equipment can be rolled, and the rolled sample has no large cracks. The tensile test results show a tensile strength of 303 MPa.

An investigation is performed to clarify the manufacturing conditions of pure magnesium and AZ31 magnesium alloy thin plate using the melt drag method. By the melt drag method, suitable for magnesium molten metal, pure magnesium can be produced as a continuous thin plate with a thickness of 1.4 mm to 2.4 mm in the range of 5 m/min to 20 m/min of roll speed, and the width of the thin plate to the nozzle outlet width. AZ31 magnesium alloy is able to produce a continuous sheet of thickness in the range of 5 m/min to 30 m/min in roll circumferential speed, with a thickness of 0.6 mm to 1.6 mm and a width of the sheet matching the nozzle outlet width. In the magnesium melt drag method, the faster the circumferential speed of the roll, the shorter the contact time between the molten metal and the roll, and it is found that the thickness of the produced thin plate becomes thinner. The effect of the circumferential roll speed on the thickness of the thin plate is evident in the low roll circumferential region, where the circumferential speed is 30 m/min or less. The AZ31 thin plate manufactured by the melt drag method has a finer grain size as the thickness of the thin plate decreases, but it is currently judged that this is not the effect of cooling by the roll.

The global trend is the application of heat-treated omission materials to reduce the manufacturing cost of automobile steering parts. Attempts have been made to apply heat-treated omission materials in domestic, but they are delayed due to concerns over rising cold forging process costs. For quantitative prediction of cold forging process cost, fatigue properties of forging die materials were evaluated. Based on this, the die life and cost were predicted quantitatively, and the manufacturing cost reduction of automobile steering parts using heat-treated material was found to be about 11%. Also, various methods to improve die life were additionally presented.

In the present work, an explicit finite element analysis technique is introduced to analyze the thermal stress fields present in the additive manufacturing process. To this purpose, a finite element matrix formulation is derived from the equations of motion and continuity. The developed code, NET3D, is then applied to various sample problems including thermal stress development. The application of heat to an inclusion from an external source establishes an initial temperature from which heat flows to the surrounding body in the sample problems. The development of thermal stress due to the mismatch between the thermal strains is analyzed. As mass scaling can be used to shorten the computation time of explicit analysis, a mass scaling of 108 is employed here, which yields almost identical results to the quasi-static results.

목적 : 본 연구에서는 체계적 고찰을 통해 3D 프린팅 기술을 상지보조기 제작에 적용한 사례에 대해 알아 보고, 향후 작업치료사가 임상현장에서 상지보조기 제작에 3D 프린팅 기술을 적용할 때 필요한 정보를 정리하여 임상적용에 유용한 기초자료를 제시하고자 한다. 연구방법 : 2013년부터 2017년까지의 최근 5년간의 논문을 전자 데이터베이스 RISS, KISS, Scopus, PubMed와 Google Scholar를 사용하여 검색하였다. 검색 키워드로는 “3D Printing AND Orthosis OR Splint OR Brace”을 사용하였다. 검색된 논문은 2차 분류를 거쳐 최종적으로 16개의 논문을 선정하였으며 이를 분석하고 고찰하였다. 결과 : 분석대상 논문의 약 80%가 단일대상 실험연구 및 사례연구로 질적수준은 낮은 편이었다. 제작자의 전공을 분석한 결과, 크게 4가지 계열로 구분됐으며, 그 중에서 공학계열이 가장 많았다. 다음으로는 보건계열이 많았으며, 작업치료전공자는 2명이었다. 제작된 상지보조기의 종류는 6가지였으며, 그 중에서 코크 업 보조기와 손가락 보조기가 가장 많이 제작되었다. 제작에 가장 많이 사용된 소재는 플라스틱 소재중 하나인 ABS수지였다. 분석된 논문에서 사용된 제조공법은 총 4가지가 있었으며, 가장 많이 사용된 제조공법은 FDM방식이다. 상지보조기 제작을 위한 상지 측정방법으로는 3D 스캐너가 가장 많이 사용되었다. 결론 : 이번 연구를 통하여 3D 프린팅 기술을 적용한 상지보조기 제작방법에 대해 알 수 있었다. 이를 근거로 작업치료사의 업무범위 중 한가지인 상지보조기 제작에 3D 프린팅 기술을 적용할 수 있는 기초근거를 제공하고, 추후 연구에 대한 방향성을 제시하고자 하였다. 본 연구 결과를 바탕으로 작업치료분야에서 3D 프린팅 기술을 적용한 상지보조기 개발 및 연구가 더욱 활발하게 이루어질 것으로 기대한다.

제품유형과 가격, 브랜드 이미지 등의 상호작용이 소비자의 구매의도와 품질지각에 미치는 효과에 대해서는 다양한 현상을 관찰해 왔다. 그러나 제품유형과 제조방식의 상호작용이 이 요인들에 미치는 효과에 대해서는 연구가 드물었다. 그러나 3D프린터의 등장은 기계를 통한 자동화 생산과 수공예로 대표되던 제조방식에 3D프린팅이라는 새로운 방식을 추가하였고, 이러한 새로운 틀이 소비자의 구매의도와 품질지각에 영향을 미칠 가능성이 있기에 연구가 필요하다. 따라서 본 연구는 제품유형과 제조방식의 상호작용이 구매의도와 품질지각에 미치는 효과를 검증하기 위하여 이루어졌 다. 이를 위한 실험 1은 성격이 다른 제품유형(드론 vs. 바이올린 vs. 컵)을 선정하였고, 제품유형별로 선호하는 제조방식 이 다르게 나타나는지 측정하였다. 결과적으로 소비자들은 드론과 같은 최신제품은 3D프린팅 제작을, 바이올린은 수공예 제작을, 컵은 대량생산이 용이한 기계 제작을 선호하는 것으로 나타났다. 실험 2는 제품유형에 따른 제작방식 선호의 차이가 구매의도와 품질지각에 미치는 영향에 대한 검증을 시도하였다. 즉 드론은 3D프린팅 제조일 때 구매의도 가 가장 높았고, 바이올린은 수공예일 때 구매의도가 가장 높았으며, 컵은 기계 제작일 때 구매의도가 가장 높았다. 또한 드론은 제작방식 간 품질지각에 차이가 없었던 반면, 바이올린은 수공예의 품질을 가장 우수하다고 지각했고, 컵은 3D프린팅에서 품질을 가장 낮게 지각했다(컵은 3D프린팅 제작일 때 구매의도도 가장 낮았다). 본 연구가 소비자 심리학, 마케팅, 광고 등의 분야에 폭넓은 시사점을 줄 것으로 기대한다.

Material flow control (MFC) is a kind of operational policy to control of the movement of raw materials, components, and products through the manufacturing lines. It is very important because it varies throughput, line cycle time, and work-in-process (WIP) under the same manufacturing environments. MFC can be largely categorized into three types such as Push, Pull, and Hybrid. In this paper, we set various manufacturing environments to compare five existing MFC mechanisms: Push, Pull, and Hybrid (CONWIP, Gated MaxWIP, Critical WIP Loops, etc). Three manufacturing environments, manufacturing policies (make to stock and make to order), demand (low, medium, high), and line balancing (balanced, unbalanced, and highly unbalanced) are considered. The MFCs are compared in the point of the five functional efficiencies and the proposed compounded efficiency. The simulation results shows that the Push is superior in the functional efficiency and GMWIP is superior in the compounded efficiency.

In an environment where manufacturing conditions such as product lines keep changing, manufacturing control systems need to be continually maintained and upgraded according to the change. This requires an effective system implementation methodology. In th

  Ultra-high voltage transformer industry has characteristic of small quantity batch production system by other order processing unlike general mass production systems. In this industry, observance of time deadline is very important in market competitive