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The materials of BIPV can also be recycled in the building regeneration phase.
Pang (2011) analyzed different BIPV materials (e.g., single-silicon, multi-silicon, etc.) and proposed a classification method [5].
Beijing: The Science Press. 2012 (in Chinese)
The New Building Materials, 2011: 92-94 (in Chinese)
TPVIA Journal. 2011

Learned from the Hong Kong experience of sorting the construction waste at resource, this paper clarifies the recyclable materials and their use in the silts, which is shown in Table1.
Table1: The recyclable materials of the silts and their appliances Recycled Materials Appliances Rubble Aggregate As base material for road construction, crushed aggregates for laying the foundation, base filling material for drainage, for concrete making and other uses Asphalt As aggregates and base filling materials Excavated Materials As filling materials Public Filling Materials As filling materials Coal Ash For concrete making, land and ocean filling, road construction, steel skeletons making Metal For new metal products making Glass As carburetor bedding materials(substituting sand and aggregate)\gravel backfilling material for wall constructing\rubble for road constructing, for bedding backfilling Plastic For plastic timber making, which can be used to beautify the landscape or for gardening and the hydraulic engineering Rubber For rubbery roofing, playground rubbery cushion making Cellular Plastic For light concrete (for unstructured projects) making On the one hand, the idea
The early system does not change the chemical capabilities of the material, through simple processing and recycle; the late system mainly through chemical and biological ways recycles the materials rest after having gone through the early system.
Thus, the government should carry out the advocation and supported by Architecture Community via different media to advocate the security and eco-friendliness of the recycled building materials.
References [1] Meng H, in: The Journal of Hebei forestry Science and Technology, 5 (2010), p. 92-94 (In Chinese) [2] CHEN Ziyu, ZHENG Su, ZENG Hua, in: Journal of Nanjing XiaoZhuang university, 6 (2006), p. 87-90 (In Chinese) [3] WANG HX, HAN Q, SONE SB in: Architectural technology of heaping mountain in landscape by garbage-Tsuiping South Park construction in Tianjin. 12(2009), P.82-84 [4] MI Wei, LN Bowei, in: Journal of Landscape Research, 3(2011), P.83-85 [5] WANG DY, LU YJ, in: The theory and practice of landscape ecological forest based on the experimental of South Asia tropical landscape ecological forest at Wutong Mountain in Shenzhen, 1(2008), p.60-63 (In Chinese) [6] Information on http://www.szpl.gov.cn/

The average annual growth rate of major waterproof materials will remain increase at the rate of over 10 %, and the output of major waterproof materials is expected to reach 1,600 million square meters by 2015 to meet the ballooning waterproof market demand.
In 2012, production of Chinese waterproof building materials reached 1,356 million square meters, rose by 12.70% compared with 2011, in which new waterproof materials accounted for 90% , and the share will continuously increases.
A fast detection method for such materials should be set up as soon as possible
[2] Hu Qian-qian, Zhao Feng-qing, Development of the Waterproof Coating Material in China, Advanced Materials Research. 746 (2013) 262-265
[4] Shao-jie Liu, Hao Li, et al, Preparation of a new polymer-modified adhesive mortar using fine iron tailings as aggregate, Journal of Adhesion Science and Technology. 27 (2013) 951-962.

Mg(NO3)2·6H2O as traditional charger salt were added into each beaker, to charge the CNTs aggregates positively and to form adhesive material.
References [1] Yahachi Saito, Sashiro Uemura: Carbon 38(2000), p.169 [2] Rinzler A G, Hafner J H, Lou L, et.al,: Science 269(1995), p.1550 [3] De Heer WA, ChatelainA, Ugarte D: Science 270(1995), p.1179 [4] N.
Kim: Diamond and Related Materials 10(2001), p.265 [5] W.
Kim: Applied Physics Letters 78(2001), p.1547 [6] Chunsheng Du, D.Heldebrant, Ning Pan: Journal of Materials Science Letters 21(2002).
P.565 [7] Huizhong Ma, Lan Zhang, Junjie Zhang, Liwei Zhang, Ning Yao, Binglin Zhang: Applied Surface Science 251(2005), p.258

Advances in Materials Science and Engineering, ID 963971
Building Materials in Civil Engineering.
Materials for civil and construction engineers.
Building Materials.
Construction and Building Materials, pp. 818-823

The allyl thiourea and CdCl2•5H2O were used as raw materials for the synthesis of dendritic CdS nanostructures for the first time.
As an important II–VI semiconductor with a bandgap of 2.52 eV at room temperature, CdS is one of the most important electronic and optoelectronic materials, with prominent applications in nonlinear optical devices, flat panel displays, light emitting diodes, laser, transistors and so on[1-7].
He et al synthesized dendritic CdS via hydrothermal method using thiourea and Cd(NO3)2·4H2O as raw materials[17].
Conclusion Dendritic CdS nanostructures were successfully synthesized by hydrothermal method with AT and CdCl2·5H2O as raw materials.
Xu: Chinese Journal of Inorganic Chemistry, Vol. 24 (2008), p. 1434 [17] D.

Material of S1~S3 sections with batten plates is 34%~42% less than those with diaphragms, and S4~6 sections with batten plates save material about 60%, S7~8 save material about 70%, and S9~12 save material about 77%.
[10] Pi Y L, Trahair N S: Journal of Structural Engineering, Vol.124, No.2,(1998), p.174-183
[11] Pi Y L, Bradford M A: Journal of Structural Engineering, Vol.131, No.4,(2005), p.560-568
[12] Chao Dou, Yanlin Guo: Journal of Building Structures, Vol.33, No.7,(2012), p.18-26.
Arch &Tech: Natural Science Edition, Vol.43, No.2,(2011), p.202-207.

When it works, the bending side of the spring spines (clockwise) close to the ground pick up the forage objects from the ground and take them to the plate, the feeding wheel(grass feed up) will continue to feed them to the front roller through its outer teethes, the rollers( clockwise) lead the materials to the inside of the shell.
At first, because the forage object quantity is small, the material inside the shell is locating basically on the two rollers and do rotating ovement, along with the continuous input of material and the dragging in, occlusion between the material, and pile pushing role, the bundle diameter is growing, the moving material flow is continuously engaged in the forage bundle under the leadership of the rotating rollers and pressing action of gravity and rotation of the forage bundle, when the bundle diameter increases to a certain degree, the number of roller direct contacting with the forage bundle is constantly increasing, under the common driving action of these rollers , the forage bundle is constantly rotating (its movement speed could be increased), so the forage material body will form a continuous movement, until the bundle diameter is large enough, so that most of the roller contact with it, through the force sensing device, the shell cover will be opened by the bundle, and the bundle
Suppose the thickness of the feeding material flow is , feeding velocity is , the mass body density is , the length of the bundle is , at some preliminary instant , the diameter of the bundle is , the diameter of the bundle at arbitrary instant is , then the moment of inertia of the bundle can be expressed as follow:
Acknowledgements The article is supported by Shandong province science and technology research project (2012 G0030011) and Shandong Provincial Natural Science Foundation (ZR2010AM002), China.
The Deign on Binding Machine of Cornstalk, Journal of Anhui Agricultural Sciences, 39(2011), 19031-19032（In Chinese）

Photoelectrochemical Sensing of Hydrazine Based on Palladium Film Modifying N-silicon Electrode under Visible Irradiation Huaixiang Li1,a Jinchao Hu1,b, Qiong Wu1,c, Wenhua Song1,d 1College of Chemistry, Chemical Engineering and Materials Science, Shandong Normal University, Jinan 250014, P.R.
Hydrazine and its derivatives are frequently found in our environment and are used as essential raw materials and/or intermediates in some industrial preparations such as pesticides, polymers and plasticizers, but also suspected to be carcinogenic and mutagenic [2].
Wang, Journal of Pharmaceutical and Biomedical Analysis 19 (1999) 231-237
Wu, Science of Advanced Materials 4 (2012) 935-940
Contursi, Journal of Electroanalytical Chemistry 692 (2013) 80-86.

Thus, how to make gas deflagration flame under control at a local scale with technology or materials, and how to make the production of coal mine safety have become an urgent problem to be solved.
Ye, using porous metal materials in the analysis, indicated that the wave energy absorption was the primary contribution for decreasing of gas explosion [8], but none perspective of numerical or experimental verification is presented.
Lin, “Prevention theory and control technology of gas dynamic disaster in coal mine,” Science in China Press, 2007, pp. 265-274
Zhou, “The Quenching of Gaseous Deflagration in Narrow Channels,” Fire Safety Science, vol. 8, 1999, pp. 22-33
Zhang, “The application of Span80 in methane absorption and explosion suppression material,” Journal of China Coal Society, vol. 34, 2009, pp. 366-370