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Experiment Design on Concrete under Load Attacked by Acid Rain Jiangang Niu 1,a, Zhen Zhang 2,b, and Ditao Niu3,c 1,2 School of architecture and civil engineering, inner mongolia university of science & technology, Baotou 014010, P.R.
The acid rain can destroy the ecosystem and accelerate the speed of atmospheric corrosion for materials.
Fig.1 The percentage of major ions in precipitation Test Materials and Mix Proportion Raw Materials.
Acknowledgements This study is sponsored by the Natural Science Foundation for Young Scholar of China (50908112), and the Natural Science Foundation for Doctor of Inner Mongolia（2010BS0710）.
Journal of Sichuan teachers college, 1995, 16 (1): 43-49.

Experimental design Experimental materials.
The experiment equipment is the hydraulic universal testing machine of Southwest University of Science and Technology, the maximum load is 1000kN.
References [1] Liu Shuhua, Leng Faguang.Beijing: China Building Material Industry Publishing House, 2007
Journal of Tongji University, 2004, (12):1558-1561
[6] Ma Yanfei, Xu Xiaoyong.Jiangsu Building Materials, 2010, (1):21-24.

Facile Synthesis of ZnO Nanorod and Nanosheet Li Chang-jiang1,a , Yin Yan-sheng 1,b , Zhu Hai-tao2,c 1 Institute of Materials Science and Engineering, Ocean University of China, Qingdao, China 2 College of Materials Science and Engineering, Qingdao University of Science and Technology, Qingdao, China a longriverlee@yahoo.cn, b yys2003@ouc.edu.cn, chtzhu1970@163.com Keywords: ZnO; Nanorod; Nanosheet; Abstract: ZnO nanorods, ZnO thick nanosheets and ZnO thin nanosheets can be facilely synthesized at low temperature using Zn(CH3COO)2•2H2O, Zn(NO3)2•6H2O and ZnSO4•7H2O as zinc resources, respectively.
It has become one of the most important functional materials due to novel optical, excellent catalysis and electric properties.
Acknowledgment This work was sponsored by the National Nature Science Foundation of China (50672090; 02053).
Journal of Alloys and Compounds, Vol. 459 (2008), p. 5 [9] K.

Nam*** Division of Materials Science and Engineering, Hanyang University, 17 Haengdang-dong, Seongdong-gu, Seoul, 133-791, Korea *Division of Materials, Korea Institute of Science and Technology, Seoul, 136-791, Korea **Research Institute of Industrial Science & Technology, Pohang, 790-600, Korea ***Department of Metallurgical and Materials Science, Hanyang University, Ansan, 426-791, Korea casaphd@ihanyang.ac.kr, kibaekim@kistmail.kist.re.kr, jpopark@risnet.rist.re.kr, epyoon@email.hanyang.ac.kr, twnam@hanyang.ac.kr Keywords: Aluminum alloy, eutectics, electromagnetic force, Al-Si, vibration Abstract.
Niyama: Journal of Metals, Nov. (1987), p.34

A Study of Antioxidant Activity About Seleno-polysaccharide of Cordyceps militaris from different areas of China Qin Li1,a Chi Zhang2,b 1School of Biological Science and Technology,Hubei Institute for Nationalities, Enshi 445000,Hubei,People/s Republic of China 2School of Biological Science and Technology,Hubei Institute for Nationalities, Key Laboratory of Biologic Resources Protection and Utilization of Hubei Province , Enshi,Hubei,445000,People/s Republic of China a email,1342260627@qq.com,b correspondence email ,zhtzu@163.com Keywords:Cordyceps militaris; seleno-polysaccharide;reducing power;superoxide anion radical;hydroxyl radical Abstract.In this article,Cordyceps militaris,that from Hubei and Yunnan,were used as the research objects, to extract seleno-polysaccharide ,then the antioxidant activity of seleno-polysaccharide were determined by reducing power,the scavenging capacity on superoxide anion radical and hydroxyl radical.The results indicated that,the content of
Research materials, reagents and equipment Materials.Two kinds of Cordyceps militaris fruiting body respectively from Yunnan and Hubei.
So the processing condition would be taken into account in the further research or production.Try to reduce the damage to the active materials under mild conditions to process,it really reflected the efficacy of commercial Se-rich Cordyceps militaris.
[2]Zhanfeng Liu,Hanwen Sun, Journal of Hebei University (Natural Science Edition),2005, 25(1):104-108.
[4]Weijie Zhang,The Biochemical Research Techniques of Compound Polysaccharide, Shanghai:Shanghai Science and Technology Press,1987:33-40.

Characterization of graphite containing ceramic coating prepared on carbon steel by plasma electrolytic oxidation Yunlong Wang1,* , Miao Wang1,2, Ming Zhou1,* and Zhaohua Jiang3 1Center for photon Manufacturing Science and Technology, School of Materials Science and Engineering, Jiangsu University, Zhenjiang, 212013,China 2Research institution of new materials, School of Materials Science and Engineering, Jiangsu University, Zhenjiang, 212013,China 3School of Chemical Engineering and Technology, Harbin Institute of Technology, Harbin 150001, China Corresponding author, Tel/fax: 86-511-88790191, E-mail: Wangyunlonghit@yahoo.com.cn Co- Corresponding author, Tel/fax: 86-511-88790191, E-mail: Mingzhou@ujs.edu.cn Keywords: Plasma electrolytic oxidation, Ceramic coatings, Graphite, Surface, Structure Abstract.
Acknowledgements This work was financially supported by Open Fund of Jiangsu Provincial Key Laboratory of Tribology（KJSMCX2011006） ，Natural science fund for colleges and universities in Jiangsu Province (11KJB430003) and the fund for postdoctoral of Jiangsu University (1143002960) References [1] Yerokhin AL, Nie X, Leyland A, Matthews A, Dowey SJ.
Russian Journal of Applied Chemistry 2010;83:664-670 [10] Matykina E, Berkani A, Skeldon P, Thompson, GE.

Screw speed 20~50 r/min; Distributions of the equipment temperature are 45℃/55℃/65℃/75℃; Materials shape: Φ8~Φ12 granular or ribbon; Raw materials used in this experiment: off-cuts from rubber plant or tire factory as shown in Fig.6.
Screw speed 50 rpm; Distributions of the equipment temperature are 90℃/170 ℃/180℃/190 ℃; Materials shape: powder and granular; Raw materials: waste plastics: waste rubber: waste oil (formula: 5:5:1), provided by Qingdao Yi An Recycled Rubber Products Co., Ltd. as shown in Fig.9[6].
So it can be applied in polymer materials processing with granular, powder or other materials.
[2] Yan-chang Liu, Baiyuan Lv, Dianrui Zong, Feeding Technology of Spiral Engagement Roll for Cold Feeding Rubber Extruders, Journal of Qingdao Institute of Chemical Technology, Vol. 21, No.4(Dec.2000), p.364~366
[5] Baiyuan Lv et al., Report of Preparation of short fiber rubber by ply scraps, Qingdao University of Science and Technology Polymer Processing Machinery Research Institute, 2010

Efficiency of protective funds (EPF): this indicator reflects the expenditure of funds annually for the protection of facilities, materials, patrol
Chinese Journal of Applied Ecology 20(2009), p.1739–1746(in Chinese)
Bio-Science 53(2003), p.819–822
Journal of Rural Ecological Environment Vol. 10(1994), p.6–9(in Chinese)
Journal of Rural Ecological Environment Vol. 21(2005), p.73–75(in Chinese)

Figure 3 Classification map of comprehensive total score of various cities in Henan province Acknowledgements The authors acknowledge the National Natural Science Foundation of China (Grant: 0000009), the National Natural Science Foundation of China (Grant: 000000005).
[2] LIU Huijuan,WANG Dongsheng,YUAN Baoling.Sustainable water environment and water use:a perspective on water resource utilization[J].Journal of Environmental Sciences,2016,50(12):1-2
[3] HONG YANG, FLOWER R J, THOMPSON J R.Sustaining China's water resources[J].Science,2013,339(6116):141-142
Journal of Cleaner Production, 2013, 53 (16): 158－166
[11] LEE B G, LEE K.Environmental Sustainability Assessment Based on the Concept of Carbon Carrying Capacity[J].Applied Mechanics & Materials,2013,284-287:1511-1517

Materials and Methods The activated sludge used as initial seed was taken from a local municipal wastewater treatment plant in Harbin, China.
Ogada, Sewage sludge combustion, Progress in energy and combustion science. 25 (1999) 55-116
Liu, Modeling of energy spilling in substrate-sufficient cultures, Journal of Environmental Engineering, 125 (1999) 508-513
Liu, Modeling of Energy Spilling in Substrate-Sufficient Cultures, Journal of Environmental Engineering. 126 (2000) 979-980
, Water Science and Technology. 38 (1998) 137-144