사진

  • ResearcherID
  • ResearchGate
  • ORCiD
  • Scopus
  • Google Citations

Oh, Jae Eun (오재은)

Department
Department of Urban and Environmental Engineering(도시환경공학과)
Website
https://nano-aims.wixsite.com/ohjaeeun-unist/
Lab
Nano-AIMS Structural Materials Lab. (Nano-AIMS 구조재료 연구실)
Research Keywords
미세구조 분석, 콘크리트 재료, 구조 재료, 건설재료, 친환경 건설재료, 무시멘트 기반 고강도 경량 결합재 개발, 에너지절감형 건설재료, 에너지절감형 건설재료, 기술사업화, 고로슬래그, 플라이애시, Concrete Materials, Cement-less binders, Concrete micro-structure
Research Interests
Nano-AIMS (Nano-based Advanced Infrastructural Materials) is an interdisciplinary laboratory that combines material science and architectural/civil engineering to develop new construction building materials using industrial waste by-products. We purse three major goals: (1) scientific publication, (2) technology commercialization, and (3) technological aid based on our faith and God’s love to international developing countries in need of technologies.
This table browses all dspace content
Issue DateTitleAuthor(s)TypeViewAltmetrics
2022-06Proposed specific heat capacity model for a concrete wall containing phase change material (PCM) under field experiment conditionsSong, Haemin; Yum, Woo Sung; Sim, Sungwon, et alARTICLE23 Proposed specific heat capacity model for a concrete wall containing phase change material (PCM) under field experiment conditions
2022-06Predicting airborne chloride deposition in marine bridge structures using an artificial neural network modelJeon, Dongho; Jung, Jahe; Park, Jisun, et alARTICLE12 Predicting airborne chloride deposition in marine bridge structures using an artificial neural network model
2022-04Effect of Silica Fume on the Volume Expansion of Metakaolin-Based Geopolymer Considering the Silicon-to-Aluminum Molar RatioPark, Sungwoo; Yu, Juan; Oh, Jae Eun, et alARTICLE53 Effect of Silica Fume on the Volume Expansion of Metakaolin-Based Geopolymer Considering the Silicon-to-Aluminum Molar Ratio
2022-03High-accuracy rebar position detection using deep learning-based frequency-difference electrical resistance tomographyJeon, Dongho; Kim, Min Kyoung; Jeong, Yeounung, et alARTICLE34 High-accuracy rebar position detection using deep learning-based frequency-difference electrical resistance tomography
2022-01Mechanical and Durability Properties of Cementless Concretes Made Using Three Types of CaO-Activated GGBFS BindersYum, Woo Sung; Yu, Juan; Jeon, Dongho, et alARTICLE70 Mechanical and Durability Properties of Cementless Concretes Made Using Three Types of CaO-Activated GGBFS Binders
2021-12Detecting embedded rebar in cement mortar by frequency-difference electrical resistance tomographyJeon, Dongho; Kim, Min Kyoung; Woo, Hayoung, et alARTICLE104 Detecting embedded rebar in cement mortar by frequency-difference electrical resistance tomography
2021-10Incorporation of copper slag in cement brick production as a radiation shielding materialSim, Sungwon; Jeon, Dongho; Kim, Do Hoon, et alARTICLE102 Incorporation of copper slag in cement brick production as a radiation shielding material
2021-08Influence of the degree of crystallinity of added nano-alumina on strength and reaction products of the CaO-activated GGBFS systemYu, Juan; Song, Haemin; Jeon, Dongho, et alARTICLE155 Influence of the degree of crystallinity of added nano-alumina on strength and reaction products of the CaO-activated GGBFS system
2021-01Lightweight cementless composite of CaO-CaCl2-CaSO4-activated GGBFS developed as an alternative to lightweight gypsum compositeYum, Woo Sung; Jeon, Dong Ho; Yu, Juan, et alARTICLE228 Lightweight cementless composite of CaO-CaCl2-CaSO4-activated GGBFS developed as an alternative to lightweight gypsum composite
2020-12Use of Coal Bottom Ash and CaO-CaCl2-Activated GGBFS Binder in the Manufacturing of Artificial Fine Aggregates through Cold-Bonded PelletizationJeon, Dongho; Yum, Woo Sung; Song, Haemin, et alARTICLE190 Use of Coal Bottom Ash and CaO-CaCl2-Activated GGBFS Binder in the Manufacturing of Artificial Fine Aggregates through Cold-Bonded Pelletization
2020-09Application of micro-CT to Mori-Tanaka method for non-randomly oriented pores in air-entrained cement pastesPark, Inhwan; Moon, Juhyuk; Bae, Sungchul, et alARTICLE358 Application of micro-CT to Mori-Tanaka method for non-randomly oriented pores in air-entrained cement pastes
2020-08Prevention of potential strength degradation due to conversion of C(2)AH(8) formed in CaO-Ca(HCOO)(2)-activated GGBFS binder using CaSO4Yum, Woo Sung; Suh, Jung-Il; Kim, Do Hoon, et alARTICLE352 Prevention of potential strength degradation due to conversion of C(2)AH(8) formed in CaO-Ca(HCOO)(2)-activated GGBFS binder using CaSO4
2020-08Effect of magnesium formate as compared with magnesium oxide on the strength enhancement and microstructures of CaO-activated Class F fly ash systemSuh, Jung-Il; Yum, Woo Sung; Sim, Sungwon, et alARTICLE363 Effect of magnesium formate as compared with magnesium oxide on the strength enhancement and microstructures of CaO-activated Class F fly ash system
2020-07Development of a clinker-free white binder of one-part CaO-activated GGBFS with TiO2 additionSim, Sungwon; Jeon, Dongho; Yum, Woo Sung, et alARTICLE361 Development of a clinker-free white binder of one-part CaO-activated GGBFS with TiO2 addition
2020-05Strength enhancement of CaO-activated slag system through addition of calcium formate as a new auxiliary activatorYum, Woo Sung; Suh, Jung-Il; Jeon, Dongho, et alARTICLE328 Strength enhancement of CaO-activated slag system through addition of calcium formate as a new auxiliary activator
2019-11Influence of calcium nitrate and sodium nitrate on strength development and properties in quicklime(CaO)-activated Class F fly ash systemSuh, Jung-Il; Yum, Woo Sung; Song, Haemin, et alARTICLE360 Influence of calcium nitrate and sodium nitrate on strength development and properties in quicklime(CaO)-activated Class F fly ash system
2019-11Recycling of Reverse Osmosis (RO) Reject Water as a Mixing Water of Calcium Sulfoaluminate (CSA) Cement for Brick ProductionLee, Hwan; Jeon, Dongho; Song, Haemin, et alARTICLE371 Recycling of Reverse Osmosis (RO) Reject Water as a Mixing Water of Calcium Sulfoaluminate (CSA) Cement for Brick Production
2019-08Influence of calcium and sodium nitrate on the strength and reaction products of the CaO-activated GGBFS systemYum, Woo Sung; Suh, Jung-Il; Sim, Sungwon, et alARTICLE373 Influence of calcium and sodium nitrate on the strength and reaction products of the CaO-activated GGBFS system
2019-01The cation-dependent effects of formate salt additives on the strength and microstructure of CaO-activated fly ash bindersSuh, Jung-Il; Yum, Woo Sung; Jeong, Yeonung, et alARTICLE722 The cation-dependent effects of formate salt additives on the strength and microstructure of CaO-activated fly ash binders
2018-12Gypsum-Dependent Effect of NaCl on Strength Enhancement of CaO-Activated Slag BindersSim, Sungwon; Lee, Hwan; Jeon, Dongho, et alARTICLE624 Gypsum-Dependent Effect of NaCl on Strength Enhancement of CaO-Activated Slag Binders

MENU