United Nations Environment Programme (2025), Global Status Report for Buildings and Construction 2024/2025, Nairobi, Kenya: United Nations Environment Programme, 20-21.

Ministry of Land, Infrastructure and Transport (MOLIT) (2021, December 23), 2050 Carbon Neutral Roadmap of the National Land Transportation, Sejong, Republic of Korea: Ministry of Land, Infrastructure and Transport. Available at: https://www.molit.go.kr/USR/NEWS/m_71/dtl.jsp?lcmspage=1&id=95086352 (in Korean).

Rhee, K. N., and Jung, G. J. (2017), Insulation performance and heating and cooling energy consumption depending on the window reveal depth in external wall insulation, Journal of the Architectural Institute of Korea Structure & Construction, 33(12), 91-98 (in Korean, with English abstract).

Park, S. H., Lee, H. H., Kim, M. H., Lim, J. H., and Song, S. Y. (2015), Condensation resistance performance evaluation of internal and external insulation systems on apartment buildings, Proceedings of the 2015 Spring Conference of the Architectural Institute of Korea, Architectural Institute of Korea, Yongin, Korea, 259-260 (in Korean, with English abstract).

Cho, S. H., Kang, J. S., and Choi, G. S. (2016), Energy performance evaluation of external insulation system for post-remodeling in apartment buildings, Proceedings of the SAREK 2016 Summer Annual Conference, The Society of Air‑Conditioning and Refrigerating Engineers of Korea, Gangwon, Korea, 176-178 (in Korean, with English abstract).

Guedes, M. C., Matias, L., and Santos, C. P. (2009), Thermal comfort criteria and building design: field work in Portugal, Renewable Energy, 34(11), 2357–2361.

European Organisation for Technical Approvals (EOTA) (2013), ETAG 004 Guideline for European Technical Approval of External Thermal Insulation Composite System (ETICS) with Rendering, Brussels: European Organisation for Technical Approvals.

Hong, S. H., Rim, M. Y., Lee, Y. J., Kim, T. H., and Jeong, J. W. (2023), An experimental study on the evaluation of watertight performance of wet-based external thermal insulation composite system (ETICS) for buildings, Journal of KIAEBS, 17(5), 258-271(in Korean, with English abstract).

Kim, J. H., Kim, S. M., and Kim, J. T. (2021), Evaluation on weather resistance of dry and wet external thermal insulation walls according to EOTA test standard, Journal of KIAEBS, 15(4), 405-418 (in Korean, with English abstract).

Malanho, S., and Veiga, M. R. (2020), Bond strength between layers of ETICS – Influence of the characteristics of mortars and insulation materials, Journal of Building Engineering, 28, 101021.

Korea Rock Cell Board Inc. (2022), RCB Product Page. Available at: http://www.krcb.co.kr/28 (in Korean).

Choi, K. S., Ha, S. K., Oh, K. Y., Park, K. S., and Ryu, H. S. (2021), Mechanical properties of external thermal insulation composite system with quasi-non-combustible performance, Journal of The Korea Institute of Building Construction, 21(5), 507-518 (in Korean, with English abstract).

Choi, K. S., Park, G. S., Lee, S. O., Oh, K. Y., Ha, S. K., and Lee, J. E. (2022), A study on the performance verification and bond detail development of external thermal insulation composite system with semi-non-combustible, Goyang, Republic of Korea: Korea Institute of Civil Engineering and Building Technology (in Korean).

British Standards Institution (BSI) (2013), BS EN 1607: Thermal insulating products for building applications — Determination of tensile strength perpendicular to faces, Comité Européen de Normalisation, Brussels, 5–10.