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Analysis of new construction materials and its development Bo Wang1, a, Ji Cheng2,b, Xiaohan Zhang3,c 1,2,3China ENFI Engineering Corporation, Beijing, China awangbo@enfi.com.cn, bchengji@enfi.com.cn, czhangxh@enfi.com.cn Keywords: New Construction materials; Building Industry; Development Trends Abstract.
With the rapid development of our national economy, not only industrial building and civil construction put forward more variety and high quality requirements to waterproof materials, in the bridge, tunnel, the defense industry, agricultural irrigation and transportation and other industries and fields waterproof sealing materials are also needed to a high quality.
(3) to strengthen the research of technical application of products in the engineering, and to accelerate pace of the application of new construction materials and products The department in charge of construction materials and the department in charge of construction should strengthen the cooperation as soon as possible to develop the implementation regulations and management methods of the new construction materials and effectively solve specific problems in all aspects of the development process of research, production, construction, design, construction of new construction materials.
21st Century Construction materials Create Living, Vol.7(2001), pp.34-35, In Chinese [3] Wei-hua Wang, Cheng-jun Dong, Yu-feng Gong: Function of construction materials in construction power-conserving, Shanxi Architecture, Vol.1 (2007), pp.179-180, In Chinese [4] Yongsheng Liu, On the construction of energy-saving technical measures, Science & Technology Information, Vol.22 (2011), pp.185-187, In Chinese [5] Cai-bo Sun, Qi Jiang: Safe Coats of the Architecture Space—Healthy,Invariance of the Temperate,Saving on Energy of the New Construction materials, Science and Technology of Overseas Construction materials, Vol.22 (2011), pp.16-18, In Chinese [6] Yang Xiaofang,Chen Yongxiang: To Help People Prosper And Encourage Economic Development New Construction materials Are Required In The 21TH, Journal Of Southwest China Institute Of Technology, Vol.3 (2000), pp.77-80, In Chinese [7] Jinduo Yang: Talk about Develop and Use of New Construction materials, Journal of Beijing Institute of Civil
Engineering and Architecture, Vol.1 (1996), pp.106-112, In Chinese [8] XU Li-li: On the Time Value of the New-type Construction materials, Sci/tech Information Development & Economy, Vol.11 (2005), pp.176-177, In Chinese

., Hong Kong, China 3Department of Civil Engineering, The University of Hong Kong, Hong Kong, China airdngpl@gmail.com, bivanytng@hotmail.com, cwilsonfung23@msn.com, dchenjiajian@hku.hk, ekhkwan@hku.hk Keywords: Adiabatic temperature rise, Heat loss compensation, Pulverized fuel ash, Semi-adiabatic curing test.
The engineering community has well recognized that PFA concrete is less susceptible to thermal cracking than conventional cement concrete, and accepted PFA as a major mineral admixture in concrete production [2-3].
Bamforth, “In-situ measurement of the effect of partial portland cement replacement using either fly ash or ground granulated blast furnace slag on the performance of mass concrete”, Proceedings of the Institution of Civil Engineers, Vol. 69, Part 2 (1980), pp.777-800

Optimization of Activated Sludge Physical Properties by Magnetic Field via Response Surface Modeling NUR SYAMIMI ZAIDI1, a, KHALIDA MUDA1, b, JOHAN SOHAILI1, c and MIKA SILLANPÄÄ2, d 1Faculty of Civil Engineering, Universiti Teknologi Malaysia (UTM), 81310 Johor Bahru, Johor, MALAYSIA 2Laboratory of Green Chemistry, Lappeenranta University of Technology, Patteristonkatu 1, 50100 Mikkeli, FINLAND anursyamimi@utm.my, bkhalida@utm.my, cjohansohaili@utm.my, dMika.Sillanpaa@lut.fi Keywords: Activated sludge; Wastewater treatment; Magnetic field; RSM; Physical properties Abstract In this study, activated sludge was exposed by magnetic field exhibited from NdFeB – type of permanent magnets.
Augusto, Magnetic classification in health sciences and in chemical engineering, Chem.
Kamariah, Subsurface flow and free water surface flow constructed wetland with magnetic field for leachate treatment, Thesis of Master of Engineering (Civil-Wastewater), Universiti Teknologi Malaysia, 2006

Pustylnik1,b 1Moscow State University of Civil Engineering (National Research University), Moscow, Yaroslavskoe shosse 26, 129337, Russia apct44@yandex.ru, bpustilnik.sp@yandex.ru Keywords: foam concrete, chemical and mineral admixtures, finely-dispersed slag, microsilicasuspension, foam stability, strength, thermal conductivity, shrinkage, foam-concrete mix, composition.
The main reason for the high level of consumption of fuel and energy resources is the heat loss through the surfaces of heated buildings and structures constructed according to the previous heat engineering standards with a thermal resistivity RprO= 0.8...1 for walls, and RprO = 0.39 m2.
Ukhova, Experience in the production and use of non-autoclaved porobeton // Industrial and Civil Engineering. 9 (2002) 29-30

Effects of Nano-CaCO3 on the Compressive Strength and Microstructure of High Strength Concrete in Different Curing Temperature Qinglei Xu1, a, Tao Meng1,b , Miaozhou Huang1,c 1College of Civil Engineering and Architecture, Zhejiang University, Hangzhou310058, China axuqinglei2008@126.com, btaomeng@zju.edu.cn, chuangmiaozhou@zju.edu.cn Corresponding author Tao Meng Institute of Building Materials, College of Civil Engineering and Architecture, Zhejiang University 688 Yuhangtang Road, Xihu District, Hangzhou310058, P.R.China, Tel: 0086-571-88208481, Fax:0086-571-88208483, Cell Phone: 0086-13606700877, 0044-07767038835 Email: taomeng@zju.edu.cn, tmeng@imperial.ac.uk Keywords: concrete, low temperature curing, nano-CaCO3, compressive strength, XRD spectrum.
Rare metal materials and engineering: Vol.37, Suppl.2(May,2008),p.667~669(in Chinese) [5] Guhua Li, Bo Gao: Effect of Level SiO2 and Level CaCO3 on Concrete Performance.

Development of New Advanced Plasters with Waste Fibers Content ZACH Jiří1,a*, PETERKOVÁ Jitka1,b and NOVÁK Vítězslav3,c 1Brno University of Technology, Faculty of Civil Engineering, Centre AdMaS, Veveří 331/95, 602 00 Brno, Czech Republic azach.j@fce.vutbr.cz, bhroudova.j@fce.vutbr.cz, cnovak.v@fce.vutbr.cz Keywords: Plasters, binders, waste fibers, thermal conductivity, mechanical properties, cement composites.
Waste cellulose fibers, recycled building waste, industrial wastes, waste tyres, waste PET bottles, etc. are often used as industry waste in the civil engineering today [12, 13, 14, 15, 16, 17].
Junak, Implementation of Waste Cellulosic Fibres into Building Materials, 2nd International Conference on Biomass (ICONBM 2016), Chemical Engineering Transactions, 50 (2016) 367-372.

., of Civil Engineering, Jerusalem College of Engineering, Chennai, India 2Director, Institute of Remote Sensing, Anna University, Chennai, India akaviyaselva@gmail.com ,bramalingam.m1@gmail.com Key words: SWAT, Surface Runoff, GIS, SCS, Evapotranspiration.
[7] Charles Hawkins (2006), “The Multi-Watershed Delineation Tool”, in the Journal of dept. of civil and environmental engineering, pp 2-5

LIFE CYCLE ASSESSMENT FOR PAVEMENT SUSTAINABLE DEVELOPMENT: CRITICAL REVIEW Peyman Babashamsi 1,a*, Nur Izzi Md Yusoff 2,b, Halil Ceylan3,c, Nor Ghani Md Nor 4,d 1,2Department of Civil & Structural Engineering, Universiti Kebangsaan Malaysia, 43600 UKM Bangi, Selangor, Malaysia 3Department of Civil, Construction and Environmental Engineering Iowa State University, Ames, Iowa 50011, USA 4Department of Economics and Management,Universiti Kebangsaan Malaysia, 43600 UKM Bangi, Selangor, Malaysia apeymenshams@yahoo.com, bbizzi@eng.ukm.my, cchceylan@iastate.edu, ddnorghani@ukm.edu.my Keywords: Sustainable development, Life cycle assessment (LCA), Pavements, environment, and review.
Griffiths, Project Sustainability Management in Infrastructure Projects. 2nd International Conference on Sustainability Engineering and Science.

Spain. 2Department of Civil Engineering.
Introduction There is a compelling demand within the scientific community to support the fields of civil engineering, construction, and architecture in pursuit of a future in which resource sustainability can be assured [1-4].
Journal of Engineering, Design and Technology. 2019

Effect of perlite waste powder on chemical resistance of polymer concrete composites SOKOŁOWSKA Joanna Julia1,a*, WOYCIECHOWSKI Piotr Paweł1,b, ŁUKOWSKI Paweł1,c and KIDA Kamila1,d 1Department of Building Materials Engineering, Faculty of Civil Engineering, Warsaw University of Technology, al.
Acknowledgments This paper is out of scientific project financed by Faculty of Civil Engineering of Warsaw University of Technology and the Applied Research Program No.