사진

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Pyo, Sukhoon (표석훈)

Department
Department of Urban and Environmental Engineering(도시환경공학과)
Website
http://imct.unist.ac.kr/
Lab
Innovative Materials for Construction and Transportation Lab. (고성능 건설/교통 재료 연구실)
Research Keywords
건설재료, 초고성능 콘크리트, 철도 시설물, 레이저 가공, 흡음 콘크리트, UHPC, Laser Fabrication, Construction Materials, Sound Absorbable Concrete, Railway Engineering
Research Interests
IMCT laboratory provides an ideal place for design, characterization, and applications of a variety of innovative materials toward construction and transportation fields. Research focuses on both developments and applications of innovative materials including the structural applications of ultra high performance concrete, the material design of sound absorbable high performance concrete, the development of railway sleeper using waste plastics, and applications of innovative laser fabrication to cementitious materials.
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Issue DateTitleAuthor(s)TypeViewAltmetrics
2021-12Practical considerations of porosity, strength, and acoustic absorption of structural pervious concreteAlemu, Abel Shiferaw; Yoon, Jinyoung; Tafesse, Million, et alARTICLE31 Practical considerations of porosity, strength, and acoustic absorption of structural pervious concrete
2021-11Experimental study on the sound absorption performance of surface-perforated mortarPark, Sungwoo; Moges, Kebede Alemayehu; Pyo, SukhoonARTICLE61 Experimental study on the sound absorption performance of surface-perforated mortar
2021-10Effects of vertical stiffness of rail fastening system on the behavior of the end regions of railway bridges with slab tracksSung, Deokyong; Pyo, Sukhoon; Chang, SeongkyuARTICLE14 Effects of vertical stiffness of rail fastening system on the behavior of the end regions of railway bridges with slab tracks
2021-06A Numerical Study on Structural Performance of Railway Sleepers Using Ultra High-Performance Concrete (UHPC)Shin, Moochul; Bae, Younghoon; Pyo, SukhoonARTICLE97 A Numerical Study on Structural Performance of Railway Sleepers Using Ultra High-Performance Concrete (UHPC)
2021-05Framework for characterizing the time-dependent volumetric properties of aerated cementitious materialYoon, Jinyoung; Kim, Hyunjun; Sim, Sung-Han, et alARTICLE117 Framework for characterizing the time-dependent volumetric properties of aerated cementitious material
2021-03The Role of Supplementary Cementitious Materials (SCMs) in Ultra High Performance Concrete (UHPC): A ReviewPark, Sungwoo; Wu, Siyu; Liu, Zhichao, et alARTICLE137 The Role of Supplementary Cementitious Materials (SCMs) in Ultra High Performance Concrete (UHPC): A Review
2020-12On the expansive cracking of a cement matrix containing atomized basic oxygen furnace slag with a metallic ironTafesse, Million; Lee, Hyo Kyoung; Alemu, Abel Shiferaw, et alARTICLE143 On the expansive cracking of a cement matrix containing atomized basic oxygen furnace slag with a metallic iron
2020-11Effect of steel fiber content on structural and electrical properties of ultra high performance concrete (UHPC) sleepersBae, Younghoon; Pyo, SukhoonARTICLE128 Effect of steel fiber content on structural and electrical properties of ultra high performance concrete (UHPC) sleepers
2020-10Mechanical Properties of Coal Ash Particle-Reinforced Recycled Plastic-Based Composites for Sustainable Railway SleepersJu, Suhawn; Yoon, Jinyoung; Sung, Deokyong, et alARTICLE159 Mechanical Properties of Coal Ash Particle-Reinforced Recycled Plastic-Based Composites for Sustainable Railway Sleepers
2020-10Fresh and hardened properties of portland cement-slag concrete activated using the by-product of the liquid crystal display manufacturing processChoi, Sung; Pyo, SukhoonARTICLE172 Fresh and hardened properties of portland cement-slag concrete activated using the by-product of the liquid crystal display manufacturing process
2020-07Characterization of Porous Cementitious Materials Using Microscopic Image Processing and X-ray CT AnalysisYoon, Jinyoung; Kim, Hyunjun; Sim, Sung-Han, et alARTICLE216 Characterization of Porous Cementitious Materials Using Microscopic Image Processing and X-ray CT Analysis
2020-06Influence of the Aggregate Surface Conditions on the Strength of Quick-Converting Track ConcreteHwang, Rahwan; Lee, Il-Wha; Pyo, Sukhoon, et alARTICLE164 Influence of the Aggregate Surface Conditions on the Strength of Quick-Converting Track Concrete
2020-05Ultra high performance concrete (UHPC) sleeper: Structural design and performanceBae, Younghoon; Pyo, SukhoonARTICLE233 Ultra high performance concrete (UHPC) sleeper: Structural design and performance
2020-05Microstructural characteristics of sound absorbable porous cement-based materials by incorporating natural fibers and aluminum powderYoon, Jinyoung; Kim, Hyunjun; Koh, Taehoon, et alARTICLE186 Microstructural characteristics of sound absorbable porous cement-based materials by incorporating natural fibers and aluminum powder
2020-03High-Power Fiber Laser Cutting for 50-mm-Thick Cement-Based MaterialsSeo, Youngjin; Lee, Dongkyoung; Pyo, SukhoonARTICLE227 High-Power Fiber Laser Cutting for 50-mm-Thick Cement-Based Materials
2020-02Interfacial fracture toughness between aggregates and injected quick-hardening mortarLee, Il-Wha; Hwang, Rahwan; Kim, Dong Joo, et alARTICLE215 Interfacial fracture toughness between aggregates and injected quick-hardening mortar
2020-02Microstructural Characteristics of Cement-Based Materials Fabricated Using Multi-Mode Fiber LaserSeo, Youngjin; Lee, Dongkyoung; Pyo, SukhoonARTICLE198 Microstructural Characteristics of Cement-Based Materials Fabricated Using Multi-Mode Fiber Laser
2019-11Chloride-induced corrosion of steel fiber near the surface of ultra-high performance concrete and its effect on flexural behavior with various thicknessPyo, Sukhoon; Koh, Taehoon; Tafesse, Million, et alARTICLE264 Chloride-induced corrosion of steel fiber near the surface of ultra-high performance concrete and its effect on flexural behavior with various thickness
2019-06시멘트 복합체의 레이저 커팅에 관한 실험적 연구서영진; 표석훈; 이동경ARTICLE176 시멘트 복합체의 레이저 커팅에 관한 실험적 연구
2019-02Effects of abraded fine particle content on strength of quick-hardening concreteLee, Il-Wha; Park, Junkil; Kim, Dong Joo, et alARTICLE360 Effects of abraded fine particle content on strength of quick-hardening concrete

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