• 한국건설관리학회논문집
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• 제23권6호
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• pp.119-124
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• 2022

최근 적층제조기술을 활용한 건축 상품 시공방법이 제안되고 있다. 적층제조기술은 건축 상품 시공과정을 자동화하여 작업자 안전을 확보한다. 또한, 비정형 형상의 구현효율성이 높아 건축물과 기반시설제조과정에 적용 가능성을 주목 받고 있다. 적층제조기술은 현대의 건설 산업에서 요구되는 컴퓨터 기반의 시공자동화, 자원관리, 시공기간예측 등을 만족할 수 있는 기술이다. 하지만, 아직 부족한 누적 데이터와 표준, 규제, 운영방법 등에 의해 산업 적용이 제한되고 있다. 본 연구에서는 건축 적층제조기술 적용가능성을 분석하기 위해 2개의 적층제조시스템으로 건축 상품을 제조한다. 또한 각 건축 상품은 적층생산결정모델을 통해 적합한 제조시스템으로 투입하는 방법이 적용되고, 실증 실험을 통해 제조과정의 문제를 확인한다. 결과적으로 건축 상품의 품질 향상을 위한 확장된 적층생산결정모델을 제안한다.

• 한국분말재료학회지
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• 제26권6호
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• pp.528-538
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• 2019

The transition from "More-of-Less" markets (economies of scale) to "Less-of-More" markets (economies of scope) is supported by advances of disruptive manufacturing and reconfigurable-supply-chain management technologies. With the prevalence of cyber-physical manufacturing systems, additive manufacturing technology is of great impact on industry, the economy, and society. Traditionally, backbone structures are built via bottom-up manufacturing with either pre-fabricated building blocks such as bricks or with layer-by-layer concrete casting such as climbing form-work casting. In both cases, the design selection is limited by form-work design and cost. Accordingly, the tool-less building of architecture with high design freedom is attractive. In the present study, we review the technological trends of additive manufacturing for construction-scale additive manufacturing in particular. The rapid tooling of patterns or molds and rapid manufacturing of construction parts or whole structures is extensively explored through uncertainties from technology. The future regulation still has drawbacks in the adoption of additive manufacturing in construction industries.

• 한국건설관리학회논문집
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• 제23권1호
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• pp.106-112
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• 2022

적층제조(AM, 3D프린팅) 기술은 건설업계에서 다양한 효과로 주목받고 있다. 특히 시공자동화, 자원관리, 시공기간 정밀도 향상, 작업자 안전 등의 문제점을 해소하는 능력을 기대하고 있다. 하지만, 적층 시공 과정은 축적된 데이터가 많은 기존 시공기술과 달리 성숙하지 못한 절차 및 시공방법으로 인해 시행착오와 예측이 어려운 사고를 유발한다. 본 연구에서는 현장 시공형 건설 AM 프로세스를 설계하고 실증을 위한 실험이 진행된다. 또한, 정성적인 실험결과의 원인 분석이 진행되었다.

• 한국건축시공학회지
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• 제7권3호
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• pp.123-130
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• 2007

This study investigated the fundamental properties and shrinkage properties of high performance concrete with water/binder ratio of 0, 30 and with combination of expansive additive and shrinkage reducing agent. According to the results, the fluidity of high performance concrete showed lower the using method in combination with expansive additive and shrinkage reducing agent than the separately using method of that, so the amount of superplasticizer increased when the adding ratio of expansive additive and shrinkage reducing agent increased. However the air content of concrete increased when used in combination with expansive additive and shrinkage reducing agent, so the amount of AE agent decreased. The compressive strength showed the highest at 5% of expansive additive, and decreased with an increase of the amount of shrinkage reducing agent. Furthermore, in order to reduce the shrinkage of high performance concrete, it was found that the using method in combination with expansive additive and shrinkage reducing agent was more effective than separately using method of that. Autogenous shrinkage was predicted using JCI model. Because JCI model is unable to consider the effect of EA and SRA, correction factor should be added to enhance the accuracy.

• 드라이브 ㆍ 컨트롤
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• 제16권3호
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• pp.51-58
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• 2019

The objective of this study was to investigate a simulation technology for the AM field based on ANSYS Inc.. The introduction of metal 3D printing AM process, and the examining of the present status of AM process simulation software, and the AM process simulation processor were done in the previous study (part 1). This present study (part 2) examined the use of the AM process simulation processor, presented in Part 1, through direct execution of Topology Optimization, Ansys Workbench, Additive Print and Additive Science. Topology Optimization can optimize additive geometry to reduce mass while maintaining strength for AM products. This can reduce the amount of material required for additive and significantly reduce additive build time. Ansys Workbench and Additive Print simulate the build process in the AM process and optimize various process variables (printing parameters and supporter composition), which will enable the AM to predict the problems that may occur during the build process, and can also be used to predict and correct deformations in geometry. Additive Science can simulate the material to find the material characteristic before the AM process simulation or build-up. This can be done by combining specimen preparation, measurement, and simulation for material measurements to find the exact material characteristics. This study will enable the understanding of the general process of AM simulation more easily. Furthermore, it will be of great help to a reader who wants to experience and appreciate AM simulation for the first time.

• 콘크리트학회논문집
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• 제28권5호
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• pp.519-525
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• 2016

본 논문에서는 혼화제에 따른 3성분계 그라우트에 대하여 자유수축 및 구속수축에 대하여 평가하였다. 본 연구에서 3성분계 그라우트는 플라이애쉬, 지르코늄 실리카퓸을 사용하였고, 팽창재(a, b)와 수축저감제 혼화제를 병용 사용하였다. 또한 유럽규정 EN 445에 따라 그라우트의 기본재료특성 실험을 수행하여 블리딩, 체적변화량, 유동성, 압축강도 실험을 수행하여 기본재료특성 거동도 분석하였다. 실험결과, 팽창재와 수축저감제 혼입률에 따라 유동성은 다소 영향은 없었으나, 우수한 블리딩 및 침하 저감성능과 압축강도를 나타났다. 자유수축 거동에서는 팽창재와 수축저감제를 혼입한 변수들은 0.0E-0.0R 변수보다 최소 29%의 수축저감성능을 보여 주었다. 특히 팽창재 a와 수축저감제를 병용 사용한 변수에서는 수축 저감의 효과가 더욱 우수한 것으로 나타났으며, 혼화제의 혼입률이 증가할수록 텐던 구속에 의한 수축균열은 뒤늦게 발생함을 알 수 있었다. 그러나 유독 팽창재 a 2.0%, 수축저감제 0.50%를 혼입한 변수에서는 우수한 수축저감성능으로 수축균열이 발생하지 않았다. 종합하여 볼 때, 본 연구의 실험 조건에서는 팽창재 a 2.0%, 수축저감제 0.50%인 조합이 PSC 교량용 고품질 3성분계 그라우트의 최적의 혼입률인 것으로 분석된다.

• 한국콘크리트학회:학술대회논문집
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• 한국콘크리트학회 1997년도 봄 학술발표회 논문집
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• pp.620-626
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• 1997

In this study. use if CSA expansive additive for concrete is discussed, particulary applications to partial compacting the concrete structure of spillway gate located in Youngjong new airport construction field. Before the field applications, several basic laboratory test were carried out in order to clarify the material characteristics and to decide mix proportions. As the result the concrete using CSA expansive additive show similar workability and compressive strength to that of OPC concrete. Forethemore, it can be concluded that the use of CSA component is effective to prevent shrinkage crack and to achive volume stabiliy of concrete structure.

• 대한토목학회논문집
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• 제42권2호
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• pp.257-261
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• 2022

건축물의 디자인 자유도 향상, 작업자 안전 향상, 비교적 쉬운 납기예측 등의 이점으로 건설 산업에 적용된 3D 프린팅 기술(Additive manufacturing, AM)은 각종 효과성의 검증과 산업적용이 진행되고 있다. 다만, 기존기술대비 낮은 성숙도로 인해, 건축AM기술의 전주기에 발생하는 새로운 문제들을 해소하기 위한 연구들이 진행 중이다. 본 논문에서는 이러한 문제점 중에서도 현장 환경에 건축물을 적층 시공하는 과정에서, 낮은 시공표면평탄이 적층 제조 형상물에 미치는 영향을 확인한다. 특히 레이저 스캐닝을 통한 3차원 재구성 및 정량 분석을 통해, 낮은 평탄도로 인한 불균일한 적층형상물을 분석하고, 이를 해소하기 위한 적층시공전략을 제안한다.

• 에너지공학
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• 제29권3호
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• pp.50-56
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• 2020

Currently, 3D printing technology is a new revolutionary additive manufacturing process that can be used for making three dimensional solid objects from digital films. In 2019, this 3D printing technology spreading vigorously in production parts (57%), bridge production (39%), tooling, fixtures, jigs (37%), repair, and maintenance (38%). The applications of 3D printing are expanding to the defense, aerospace, medical field, and automobile industry. The raw materials are playing a key role in 3D printing. Various additive materials such as plastics, polymers, resins, steel, and metals are used for 3D printing to create a variety of designs. The main advantage of the green cement for 3D printing is to enhance the mechanical properties, and durability to meet the high-quality material using in construction. There are several advantages with 3D printing is a limited waste generation, eco-friendly process, economy, 20 times faster, and less time-consuming. This research article reveals that the role of green cement as an additive material for 3D printing.

• 한국경영과학회:학술대회논문집
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• 대한산업공학회/한국경영과학회 1991년도 춘계공동학술대회 발표논문 및 초록집; 전북대학교, 전주; 26-27 Apr. 1991
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• pp.147-159
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• 1991

Stochastic convexity(concvity) of a stochastic process is a very useful concept for various stochastic optimization problems. In this study we first establish stochastic convexity of a certain class of Markov additive processes through the probabilistic construction based on the sample path approach. A Markov additive process is obtained by integrating a functional of the underlying Markov process with respect to time, and its stochastic convexity can be utilized to provide efficient methods for optimal design or for optimal operation schedule of a wide range of stochastic systems. We also clarify the conditions for stochatic monotonicity of the Markov process, which is required for stochatic convexity of the Markov additive process. This result shows that stochastic convexity can be used for the analysis of probabilistic models based on birth and death processes, which have very wide application area. Finally we demonstrate the validity and usefulness of the theoretical results by developing efficient methods for the optimal replacement scheduling based on the stochastic convexity property.