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Experimental method study of climatic evaporation of porous material in wind tunnel Yu Zhang1, a, Qinglin Meng2, b 1 Architectural Design Research Institute of SCUT , State Key Laboratory of Subtropical Building Science, South China University of Technology, Guangzhou 510640, Guangdong, China 2 School of Architecture, State Key Laboratory of Subtropical Building Science, South China University of Technology, Guangzhou 510640, Guangdong, China a arzy@ scut.edu.cn, b arqlmeng@scut.edu.cn Keywords: Climatic evaporation, Porous materials, Hot-humid climatic wind tunnel, Experimental study.
Considered to different texture of materials, different beginning times and different climatic parameters, porous material evaporation experiments were carried out and an experimental model was established.
Guangzhou PM 0.998 0.996 0.296 720 188944.998 0.000 PM-M 0.996 0.993 0.411 720 97684.450 0.000 Porous Building Materials Evaporation Experimental Model Porous building materials evaporation experimental study, based on atmospheric evaporation force was a comprehensive environmental impact of climatic elements, and restricted by porous material characteristics.
Journal of Hydrology 44, 169–190 [6] Coleman, G., DeCoursey, D.G., 1976.
Journal of Hydrology 243, 192-204 [8] I.P.Craig.

Effect of Cement Raw Material and Oxygen Concentration on SNCR Reaction Yali Wang 1,a *, Nan Li1,b, Siyu Peng1,c, Yunning Zhang1,d, Meina Chen1,e and Suping Cui1,f 1The College of Materials Science and Engineering, Beijing University of Technology,100 Pingleyuan, Chaoyang District, Beijing, 100124, China awangyali1978@bjut.edu.cn, b2900491961@qq.com, cpengsiyu@emails.bjut.edu.cn, d373049218@qq.com, echenmeina@emails.bjut.edu.cn, fcuisuping@bjut.edu.cn Keywords: Cement raw materials; Oxygen Concentration; Selective non-catalytic reduction; deNOx rate Abstract.
Quartz tube was mainly used to place cement raw materials and various oxides.
Acknowledgements This work was financially supported by the National Nature Science Foundation of China (Grant No. 51702007) and State Key Laboratory of Solid Waste Reuse for Building Materials.
International Journal of Chemical Kinetics. 8(2) (1976) 315-318
Materials Science Forum. 847 (2016) 249-255

(11) Case study To verify the reliability and the validity of this proposed model, the data of reference [2] was adopted to analyze the plans of external wall insulation materials.
Sun: Sichuan Building Science Vol. 35 (2009), p. 244 (In Chinese) [2] J.
Zhang: New Building Materials (2006), p. 424 (In Chinese) [3] C.
Li: Journal of Xi’An University of Architecture & Technology (Natural Science Edition) Vol. 42 (2010), p. 111 (In Chinese) [4] K.
Jin: Chinese Journal of Geotechnical Engineering Vol. 30 (2008), p. 941 (In Chinese) [6] M.

Materials and Methods Fabrication Protocol.
(a) Optical images of the prepared materials in powder and pellet forms, (b) UV-Vis spectra of the prepared composite materials.
Boccaccini, Materials Science and Engineering 30 (2010) 730–739
Boccaccini, Submitted for publication to Journal of Biomedical Materials Research: Part B
SCIENCE VOL 294 30 NOVEMBER 2001

Bućko3,c, Bartosz Handke4d 1AGH University of Science and Technology, Faculty of Material Science and Ceramics, Department of Technology of Ceramics and Refractories, al.
Mickiewicza 30, 30-059 Krakow, Poland 2 AGH University of Science and Technology, Faculty of Material Science and Ceramics, Department of Advanced Ceramics, al.
Mickiewicza 30, 30-059 Krakow, Poland 4 AGH University of Science and Technology, Faculty of Material Science and Ceramics, Department of Silicate Chemistry, al.
Upadhyaya: Materials science of cemented carbides – an overview, Materials and Design, 22 (2001) p. 483 – 489 [9] A.
Stobierski: The microstructural changes of composite materials based on transition metal carbides, Ceramic Materials, 61 [2] (2009) p. 140–145 [17] З.

The tensile strength of FIBC base material is mainly decided by characteristic and proportion of raw materials, production technology [4,5,6].
And different granular materials’ fluidity influences the durability of FIBC greatly [7].
Experimental section Materials and equipments.
Liu: Journal of Jiamusi Institute of Technology, Vol. 13 (1995) No. 2, p. 105 [10] Z.
Su: Journal of Natural Resources, Vol. 19 (2004) No. 3, p. 338 [17] F.

Study on the Techniques of Responders Dealing with Hazardouse Materials Accidents Kongsen Wang Chinese people’s armed police force academy, Langfang, Hebei, 065000, China wangkongsen@126.com Keywords: Hazardous, Materials, Accidents, Responder, Techniques Abstract.
This article analyzed the situation of hazardous materials accidents and pointed the basic techniques a fighter dealing with hazardous materials accidents should possess.
These techniques are sure to be useful to responders to hazardous materials accidents.
Personal protection Personal protection is needed in hazardous materials response.
The analysis of domestic serious accidents dangerous chemicals, in: China Safety Science Journal, Beijing 2006, 14 ( 6): 87 ~ 90

Automatic Data Statistics of Materials Failure Case Utilizing Ontology Peng Shi1, a, Jianghua Li1 and Lianhong Ding2, b 1National Center for Materials Service Safety, University of Science and Technology Beijing, Beijing, China 2Information School, Beijing Wuzi University, Beijing, China ashipengustb@sina.com, bdinglianhong@bwu.edu.cn Keywords: Data statistics, Materials failure case, Ontology.
Materials failure cases are typical examples of failed materials or components during their service.
Materials failure cases are typical failure accidents of materials or components during their service.
One is to judge the key factors during materials service.
The first is the materials.

Research on the Proportion of Inorganic Binder Stabilize Materials with Soda Residue Guo Wenying1,a, Zheng Meiru1,b, Yang Yibo1, 2, c, Wang Hengchang1, d 1School of Civil Engineering and Transportation, South China University of Technology, Guangzhou China; 2State Key Laboratory of Subtropical Architecture Science, South China University of Technology, Guangzhou, China awyguo@scut.edu.cn, b421241393@qq.com, c yangyibo@scut.edu.cn, dcthcwang@scut.edu.cn Keywords：Soda residue; cement; inorganic binder stabilize materials; mineral admixtures Abstract.
Raw materials and experimental methods Raw materials.
Journal of Qingdao Technological University.
Research on the mechanical performances of soda residue/fly ash compound cementitious materials.
Tianjin Construction Science and Technology. (2007), p.248-250

The results provide a theoretical basic for selecting coating thickness of thermal barrier coating materials in optimization design.
Thermal barrier coating materials is a type of advanced functional materials.
Theoretical Formulation The thermal equilibrium equation [6] for thermal barrier coating materials are ,
When the body forces, the displacement equilibrium equations for thermal barrier coating materials are
[8] Weiguo Mao, Cuiying Dai and Yichun Zhou: Natural Sciences Journal of Xiangtan University Vol.27 (2005), p.52, in Chinese.