References
[1]. Yongtao,M, Zhen,Q. 2022 Development and application of new thermal insulation materials in civil engineering Aging and application of synthetic materials 51(02):127-129.
[2]. Tong, K.H. (2020). Application of New Concrete Materials in Civil Engineering.Material Science 3(2):44.
[3]. Yachao,Z. 2020 Preparation and performance study of EPS/gypsum lightweight thermal insulation wall material Henan University 1:1-3.
[4]. Chen G , Yu Q Q , Wan B . 2021 Editorial: Recycled Materials in Civil Engineering[J]. Frontiers in Materials 7.
[5]. Liu S , Xie Q , Chen G , et al. 2018 Analysis of the application and development of new building materials in modern high-rise buildings[J]. IOP Conference Series: Materials Science and Engineering 382:022091-.
[6]. Zhang T, Wang M and Yang, H 2018 A Review of the Energy Performance and Life-Cycle Assessment of Building-Integrated Photovoltaic (BIPV) Systems.EconPapers. 11(11):1-34.
[7]. Jiaping,Liu.2022 China Building Materials News.Beijing;Economic Daily Newspaper Group.
[8]. Zhang Xiang. 2020 Performance Analysis of Building Exterior Wall Thermal Insulation Materials in Northeast China [J]. Press.43 (8): 60-63.
[9]. Huang Pinghui.2020 On energy conservation, thermal insulation and environmental protection of new building wall materials [J]. Building Materials and Decoration 5: 55-56.
[10]. Yang Yongxu, Yang Wenjing, Xu Guanxiong, et al. Analysis of new building materials and building energy conservation and thermal insulation technology [J]. Engineering Technology Research 5 (19): 116-117.
[11]. Cao Liping. 2019 Analysis of new exterior wall materials and building energy conservation and thermal insulation technology [J]. Information Recording Materials 20 (10): 25-27.
[12]. Tong Peizhou. 2020 Si02 Research on Aerogel/Expanded Pearlite Fly Ash foam Thermal Insulation Material [J]. New Building Materials 47 (7): 130 – 133.
[13]. Lu Lei, Gu Yujue, Wu Yuanhao.2020 Research on the Application of Si02 Aerogel in Building Materials [J]. Brick and Tile (7): 83-85.
[14]. Zhang Li&Liu Jieling 2021 New composite building material SiO2 Application of aerogel in civil engineering Chemical Engineer 06 : 52-55.
[15]. Y. Liang, H. Wu, G. Huang, et al. 2017 Thermal performance and service life of vacuum insulation panels with aerogel composite cores [J]. Energy Build 154:606- 617.
[16]. S. Fickler, B. Milow, L. Ratke, et al. 2015 Development of high performance aerogel concrete[J]. Energy Procedia, 78:406- 411.
[17]. S. Liu, K. Zhu, S. Cui, et al. 2018 A novel building material with low thermal conductivity: Rapid synthesis of foam concrete reinforced silica aerogel and energy performance simulation [ J ]. Energy Build 177:385-393.
Cite this article
Zi,Q. (2023). Application of new green building materials in civil engineering. Applied and Computational Engineering,23,146-151.
Data availability
The datasets used and/or analyzed during the current study will be available from the authors upon reasonable request.
Disclaimer/Publisher's Note
The statements, opinions and data contained in all publications are solely those of the individual author(s) and contributor(s) and not of EWA Publishing and/or the editor(s). EWA Publishing and/or the editor(s) disclaim responsibility for any injury to people or property resulting from any ideas, methods, instructions or products referred to in the content.
About volume
Volume title: Proceedings of the 2023 International Conference on Functional Materials and Civil Engineering
© 2024 by the author(s). Licensee EWA Publishing, Oxford, UK. This article is an open access article distributed under the terms and
conditions of the Creative Commons Attribution (CC BY) license. Authors who
publish this series agree to the following terms:
1. Authors retain copyright and grant the series right of first publication with the work simultaneously licensed under a Creative Commons
Attribution License that allows others to share the work with an acknowledgment of the work's authorship and initial publication in this
series.
2. Authors are able to enter into separate, additional contractual arrangements for the non-exclusive distribution of the series's published
version of the work (e.g., post it to an institutional repository or publish it in a book), with an acknowledgment of its initial
publication in this series.
3. Authors are permitted and encouraged to post their work online (e.g., in institutional repositories or on their website) prior to and
during the submission process, as it can lead to productive exchanges, as well as earlier and greater citation of published work (See
Open access policy for details).
References
[1]. Yongtao,M, Zhen,Q. 2022 Development and application of new thermal insulation materials in civil engineering Aging and application of synthetic materials 51(02):127-129.
[2]. Tong, K.H. (2020). Application of New Concrete Materials in Civil Engineering.Material Science 3(2):44.
[3]. Yachao,Z. 2020 Preparation and performance study of EPS/gypsum lightweight thermal insulation wall material Henan University 1:1-3.
[4]. Chen G , Yu Q Q , Wan B . 2021 Editorial: Recycled Materials in Civil Engineering[J]. Frontiers in Materials 7.
[5]. Liu S , Xie Q , Chen G , et al. 2018 Analysis of the application and development of new building materials in modern high-rise buildings[J]. IOP Conference Series: Materials Science and Engineering 382:022091-.
[6]. Zhang T, Wang M and Yang, H 2018 A Review of the Energy Performance and Life-Cycle Assessment of Building-Integrated Photovoltaic (BIPV) Systems.EconPapers. 11(11):1-34.
[7]. Jiaping,Liu.2022 China Building Materials News.Beijing;Economic Daily Newspaper Group.
[8]. Zhang Xiang. 2020 Performance Analysis of Building Exterior Wall Thermal Insulation Materials in Northeast China [J]. Press.43 (8): 60-63.
[9]. Huang Pinghui.2020 On energy conservation, thermal insulation and environmental protection of new building wall materials [J]. Building Materials and Decoration 5: 55-56.
[10]. Yang Yongxu, Yang Wenjing, Xu Guanxiong, et al. Analysis of new building materials and building energy conservation and thermal insulation technology [J]. Engineering Technology Research 5 (19): 116-117.
[11]. Cao Liping. 2019 Analysis of new exterior wall materials and building energy conservation and thermal insulation technology [J]. Information Recording Materials 20 (10): 25-27.
[12]. Tong Peizhou. 2020 Si02 Research on Aerogel/Expanded Pearlite Fly Ash foam Thermal Insulation Material [J]. New Building Materials 47 (7): 130 – 133.
[13]. Lu Lei, Gu Yujue, Wu Yuanhao.2020 Research on the Application of Si02 Aerogel in Building Materials [J]. Brick and Tile (7): 83-85.
[14]. Zhang Li&Liu Jieling 2021 New composite building material SiO2 Application of aerogel in civil engineering Chemical Engineer 06 : 52-55.
[15]. Y. Liang, H. Wu, G. Huang, et al. 2017 Thermal performance and service life of vacuum insulation panels with aerogel composite cores [J]. Energy Build 154:606- 617.
[16]. S. Fickler, B. Milow, L. Ratke, et al. 2015 Development of high performance aerogel concrete[J]. Energy Procedia, 78:406- 411.
[17]. S. Liu, K. Zhu, S. Cui, et al. 2018 A novel building material with low thermal conductivity: Rapid synthesis of foam concrete reinforced silica aerogel and energy performance simulation [ J ]. Energy Build 177:385-393.