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The study of carbon materials prepared by Zhaotong anthracite under Ultra-high temperature Jia-qing Yang 1,a Shu-he Lu 1,2,b * Xiao-hu Hua 1,2,c Xiao-gang Wang 1,2 Li-bin Niu 1,2 Zi-min Fan 1,2 Jia-bo Wang 1,2 1School of Materials Science and Engineering, Xi 'an University of Science and Technology, 710054 Xi'an, Shaanxi 2Shaanxi Engineering Research centre of Energy Saving and Polygeneration in Silicon & Magnesium industry 710054 Xi 'an, Shaanxi a283574475@qq.com,blsh198571@126.com, chxh85587373@126.com Key words: Zhaotong anthracite, Ultra-high temperature, Graphitization, Carbon materials Abstract: In this paper, reporting a new way to directly  prepare quality of carbon materials such as artificial graphite, like-graphitization carburant and senior carbonaceous reductant et al ,which is prepared from anthracite under ultra-high temperature without any other additional process and catalyst.
Acknowledgements Yunnan Province scientific and technological project (201440), Yulin City scientific and technological project (201346) and Xi'an University of Science and Technology nurture Fund (201303) References [1]X.Z.Wang,N.Liu, and H.Hu, etc: Journal of new carbon materials.
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Through the experimental research and numerical simulation, to reveal the inherent law of thermal decomposition of energetic materials, and energetic materials combustion delay process changes, provide a theoretical basis for determining the actual conditions, and storage or transportation guidance of energetic materials.
Beijing: Science Press, 1988
Energetic Materials Science[M].
Explosive Materials, 2011, 41(3):1-3
Chinese Journal of Energetic Materials, 2005, 13(6):393-396

The hazardous materials logistics accident has the characters of low probability and high hazard.
List[1] put forward an emergency model for the hazardous materials.
Conclusions Hazardous materials emergency scheduling is very important for the effective accident rescue.
Journal of Southeast University ( Philosophy and Social Science). 2009. 11(1): p. 67-70
Journal of Southeast University (Natural Science Edition). 2002: p. 510-513

Journal of Cleaner Production. 25(4) (2012) 34-41
Key Engineering Materials. 599 (2014) 61-65
Journal of Mining Science. 42(4) (2006) 403-408
Journal of Materials Science.47(16) (2012) 5933-5945
Key Engineering Materials. 711 (2016) 95-102

A significant part of traditional natural raw materials, which reserves are limited, could replace technogenic raw materials [1-5].
Modern analysis of unconventional clay raw materials [13-14] for its application, using the latest achievements of science, will give a serious impetus to the development of new types of building materials and production technologies.
A significant proportion of these rocks do not meet the regulatory requirements for raw materials for the production of cement and ceramic materials, but because of its material composition can be used to produce silicate materials.
Suleymanov, Energy-efficient concretes for green construction, Research journal of applied sciences. 9 (12) (2014) 1087-1090
Zagorodnjuk, Improving the efficiency of wall materials for «green» building through the use of aluminosilicate raw materials, International Journal of Applied Engineering Research. 10 (24) (2015) 45142-45149

Study on Smart Materials of Library Buildings Xuemei Su and Guixin He Hebei Normal University of Science & Technology, Qinhuangdao, Hebei, 066004 China Keywords: Smart Materials, Library Buildings, College Abstract.
In the library construction work, it is significant to embody the humanistic care in the smart materials of library buildings and concern about the different reader groups’ physical and psychological requirements.
Summaries The library is not only a material design of architecture and environment, but also a multilevel design of society, cultural and ecology.
References [1] Xiong Yuejin (2007) the library building and humane care library 1(4):41-45 [2] REN Yan-yan (2006) Library construction and humanistic care Journal of Academic Library and Information Science 2(4):122-125 [3] Wang Wenhua, Guan Changrong (2005)Library constructions and Humanism Thought Taking mirage prefectural Library in Japan for Example Researches In Library Science, 3(5):1557-1569 [4] XIAO Dong-hai (2006) Library building and the essential factors of humane care Chinese Journal of Medical Library and Information Science 4(4):58-67 [5] Li Jing, Sun Xiuying (2011) Building smart material knowledge system based on ontology Bayesian network and grid model.
Advances in Intelligent and Soft Computing 104: 197-202 [6] Apicella Antonio, Ianniello Domenico, Aversa Raffaella (2010)Application of nanostructured smart materials in sustainable buildings.International Journal of Sustainable Manufacturing 2(1): 66-79

Brominated poly(2,6-dimethyl-1,4-phenylene oxide)/carbon materials nanocomposite membranes for CO2/N2 separation Lin Guo1,a, Bing Yu1,2,b*, Hai-Lin Cong1,2,c, Xiu-Lan Zhang1,d, Ze-Jing Li1,e, Xiao-Mian Liu1,f, Feng Zhai1,g, Hua Yuan1,h, Tian-Zi Hao1,i 1Laboratory for New Fiber Materials and Modern Textile, Growing Basis for State Key Laboratory, College of Chemical Engineering, Qingdao University, Qingdao 266071, China 2Collaborative Innovation Center for Marine Biomass Fibers, Materials and Textiles of Shandong Province, Qingdao University, China aguolin@qdu.edu.cn, byubingqdu@163.com, chlcong@sina.com, d124871338@qq.com, elizejing1990@163.com, fliuxiaomian010@163.com, g972776209@qq.com, hyuanhua9696@163.com, i490595091@qq.com *corresponding author Keywords: Brominated poly(2,6-dimethyl-1,4-phenylene oxide); Graphene; Carbon Materials; Nanocomposite membrane; Gas separation Abstract.
Carbon materials are effective in reinforcing polymeric materials, but it is unknown whether they would degrade the membranes’ gas separation performance.
Experiment Materials and Methods.
Escoubes, Sol-gel polyimide-silica composite membrane: gas transport properties, Journal of Membrane Science. 130 (1997) 63-74
Paul, Sorption and transport of various gases in polycarbonate, Journal of Membrane Science. 2 (1977) 165-190

Ultrasonic vibrating device Al-Si alloys with 2%Fe materials were melted in a resistance furnace at 820-850º C.
The composite materials are used in marine applications such as the construction of hull, connecting rod, and so on.
Prokicc., Influence of ultrasonic melt treatment on microstructure and mechanical properties of AlSi9Cu3 alloy, Journal of Materials Processing Technology ,vol.211, 2011, p. 1729– 1735
[19] Hua Shan, l., Xiang, Q., Zhi Hong, C., RongPiao, J., Xiao Quian, L., Effect of ultrasonic vibration during casting on microstructure and properties of 7050 Al alloy, Journal of Materials Science. vol. 46, no. 11, 2011, p. 3923 – 3927
[21] Deming Gao, Zhijun Li ., Qingyou Han., Qijie Zhai., Effect of ultrasonic power on microstructure and mechanical properties of AZ91 alloy, Materials Science and Engineering, vol.A 502, 2009, p. 2–5

Kourkoulis, International Journal of Rock Mechanics and Mining Sciences, Volume 50, February 2012, 47–55 [2] Q.Z.
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