과제정보
이 논문은 2023학년도 홍익대학교 학술연구진흥비의 지원을 받아 수행된 연구임.
참고문헌
- 강승문.김대희.지석원.전현규.서치호(2001), "팽창 펄라이트를 사용한 건축용 보드의 개발에 관한 실험적 연구", 「건국대학교 건축공학과 가을 학술논문」, 919~924.
- Koo, B. K. and J. W. Jeong (2022), "Evaluation of Heat Transfer according to the Thickness of the Insulation at the Point-type Thermal Bridge of the Wall", The Korean Society of Living Environmental System, 29(6): 122~129. (in Korean)
- Kim, K. C., K. M. Im, M. S. Son, G. S. Ryu and J. Y. Kang (2022), "Effect of Concrete Containing the Biochar on Properties and Thermal Insulation Performance", Journal of the Korean Recycled Construction Resources Institute, 10(4): 428~434. (in Korean)
- 김혜연(2022), "표면 강화 시멘트계 결로 방지 단열재의 단열 및 시공성능 분석", 「대한건축학회논문집」, 38(8): 263~268.
- Moon, J. H., M. J. Ko, D. S. Choi, Y. J. Lee and Y. S. Kim (2022), "Thermal Resistance and Convergence Regarding the Internal and External Temperature Differences of Inside Insulated Concrete Wall", Journal of the Architecture Institute of Korea, 38(11): 261~268. (in Korean)
- Park, B. Y., H. S. An, G. Y. Lee, Y. J. Yoo, S. H. An and K. H. Lee (2023), "Structural Performance Test of Vertical Heat Bridge Insulation System for Multi-residential Buildings", Journal of the Korea Concrete Institute, 35(5): 479~486. (in Korean)
- 박영신.김정호.전현규.서치호(2014), "규조토 미분말과 경량골재를 사용한 콘크리트의 열전도 특성에 관한 연구", 「대한건축학회논문집」, 30(5): 65~71.
- Yang, I. H., S. T. Jeong and J. H. Park (2022), "A Study on the Correlation between Strength and Compaction of Porous Concrete Using Bottom Ash Aggregate", Journal of the Korean Recycled Construction Resources Institute, 10(4): 359~366. (in Korean)
- 유정현.김종엽.황하진(2012), "건물부문의 에너지 효율화를 위한 국가에너지 통합관리시스템의 활용 방안 연구", 「LHI Journal」, 3(3): 263~270.
- 전현규.서치호.김대회(2003), "팽창 펄라이트를 사용한 콘크리트의 특성에 관한 실험적 연구", 「대한건축학회논문집 구조계」, 19(5): 71~78.
- 정승태.김범수.박지훈.양인환(2021), "바텀애시를 활용한 다공성 콘크리트의 열전도 특성에 관한 실험 연구", 「한국건설순환자원학회논문집」, 9(4): 625~632.
- 정지원.정서용.이고은.박소정.전지연(2022), 「국외감축을 활용한 NDC 이행방안과 주요 정책과제」, 세종: 대외경제정책연구원.
- 최원기.이수열.김선형.김성범.김영탁.김진희(2021), "고단열 커튼월 핵심 설계 원리에 관한 연구", 「LHI Journal」, 43: 139~148.
- Adhikary, S. K., D. K. Ashish, and Z. Rudzionis (2021). "Aerogel Based Thermal Insulating Cementitious Composites: A Review", Energy and Buildings, 245, 111058.
- Allouzi, R., H. Almasaeid, A. Alkloub, O. Ayadi, R. Allouzi and R. Alajarmeh (2023), "Lightweight Foamed Concrete For Houses in Jordan", Case Studies in Construction Materials, 18: e01924.
- Al-Tarbi, S. M., O. S. B. Al-Amoudi, M. A. Al-Osta, W. A. Al-Awsh, M. Shameem and M. S. Zami (2023), "Development of Energy-Efficient Hollow Concrete Blocks Using Perlite, Vermiculite, Volcanic Scoria, and Expanded Polystyrene", Construction and Building Materials, 371: 130723.
- Bhoite, S. P., J. Kim, W. Jo, R. H. Bhoite, S. S. Mali, K.-H. Park and C. K. Hong (2022), "Understanding the Influence of Gypsum upon a Hybrid Flame Retardant Coating on Expanded Polystyrene Beads", Polymers, 14(17): 3570.
- Deng, J., L. Xiao, X. Li and T. Wei (2023), "Research on the Performance of Recycled-Straw Insulating Concrete and Optimization Design of Matching Ratio", Sustainability, 15(12): 9608.
- Dlimi, M., R. Agounoun, I. Kadiri, R. Saadani and M. Rahmoune (2023), "Thermal Performance Assessment of Double Hollow Brick Walls Filled with Hemp Concrete Insulation Material through Computational Fluid Dynamics Analysis and Dynamic Thermal Simulations", e-Prime, (3): 100124.
- El-Hawary, M., A. Al-Yaqout and K. Elsayed (2021). "Freezing and Thawing Cycles: Effect on Recycled Aggregate Concrete Including Slag", International Journal of Sustainable Engineering, 14(4), 800~808.
- Jedidi, M., O. Benjeddou and C. Soussi (2015), "Effect of Expanded Perlite Aggregate Dosage on Properties of Lightweight Concrete", Jordan Journal of Civil Engineering, 9(3): 278~291.
- Liu, P., Y. F. Gong, G. H. Tian and Z. K. Miao (2021), "Preparation and Experimental Study on the Thermal Characteristics of Lightweight Prefabricated Nano- Silica Aerogel Foam Concrete Wallboards", Construction and Building Materials, 272: 121895.
- Luebke, J., F. F. Pozo-Lora, S. Al-Rubaye, and M. Maguire (2023), "Out-of-Plane Flexural Behavior of Insulated Wall Panels Constructed with Large Insulation Thicknesses", Materials, 16(11): 4160.
- Pan, D., S. Yan, X. Liu, X. Sun, Y. Wu, X. Wang, J. Dan, X. Yang and J. Wang (2023), "Development of Solid Waste-Based Self-Insulating Material with High Strength and Low Thermal Conductivity", Ceramics International, 49(3): 5239~5248.
- Strzalkowski, J., P. Sikora, S.-Y. Chung, and M. A. Elrahman (2021), "Thermal Performance of Building Envelopes with Structural Layers of the Same Density: Lightweight Aggregate Concrete Versus Foamed Concrete", Building and Environment, 196: 107799.
- Yaman, T. S. and G. Lucier (2023), "Shear Transfer Mechanism between CFRP Grid and EPS Rigid Foam Insulation of Precast Concrete Sandwich Panels", Buildings, 13(4): 928.