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This paper analyses the characteristics of information flow in waste military air materials reverse logistics, the influencing factors and the structure of waste military air materials reverse logistics management.
Along with the military the development of science and technology and a large number of new military supplies waste materials produced and the recycling technology advances, need to keep a lot of new materials of data collection and recycling of new job security information.
Acknowledgements This research is supported by the National Science Foundation of China (Grant# 70871119/G0109), the National Social Science Foundation of China (Grant# 07XJY026), the Science Innovation Foundation of Logistical Engineering University (2006) and the National Science Foundation of Chong Qing(CSTC,2011BB0045).
Cai: Air Materials Management engineering (The Blue Sky Publications, China2003)
A Reijers, Wil M P : International Journal of Information Management, Vol. 25 (2005) No.5, p. 458

Materials and Methods Plastic waste from packaging materials, specifically polyethylene terephthalate (PET), polypropylene (PP), and polystyrene (PS), was used in this study.
Materials & Design, 32(4), 1681–1687
Journal of Adhesion Science and Technology, 28, 1792–1807
Polymeric materials and properties.
In Selection of Polymeric Materials (p. 139).

Computer simulation becomes a new method for developing ceramic tool materials.
The simulation of crack propagation behavior of ceramic tool materials can help to design the higher property materials.
Wakayama, Simulation of microfracture process of brittle polycrystals: Microcracking and crack propagation, Computational Materials Science 8 (1997) 327-334
Part II: Numerical examples, Mechanics of Materials 35 (2003) 365-394
Ilschner, Fracture behaviour of composites based on Al2O3-TiC, Journal of Materials Science 15 (1980). 875-885.

Material technologies research progress and applications The current researches of composite materials focus on the combination of activated carbon and light catalyst[12].
For instance, the purification of the activated carbon loaded with TiO2 materials.
Furthermore, purification materials with activated carbon ecological enzyme also have broad prospect development.
The recombination of these two kinds of composite materials is significant for purification effect to formaldehyde[13].
Journal of Hazardous Materials, 15 September 2014 [12] LexuanZhong, Chang-SeoLee, Fariborz Haghighat: Adsorption performance of titanium dioxide(TiO2) coated air filters for volatile organic compounds.

Design of the Glass matching-material system based on the Fuzzy-PID control Yanchang Liu1,a, Wei Zheng1,b, Jia Zhang1,c and Yukun Ma1,d 1Henan Institute of Science and Technology, Xinxiang 453003,China alyc5748056@qq.com, bkarl777@163.com, c83599504@qq.com, d110561281@qq.com Keywords: matching-material system, fuzzy control, PID control, expert system Abstract.
Introduction Glass matching-material system is based on production needs to be sandstone, limestone, dolomite, feldspar, soda, Glauber's salt and other raw materials in proportion to automatically transfer, mixing process.
Analysis of the controlled object In the glass matching-material system, glass weighing control of raw materials commonly used to complete the electronic scale weighing system.
Journal of Huaqiao University(Natural Science),2005, 26(1):38-42(In Chinese)
JOURNAL OF TSINGHUA UNIVERSITY(SCIENCE AND TECHNOLOGY),2000(1):120-123(In Chinese)

Study on Al-BiCl3-Hydride Composites Hydrogen Generation Materials Yu-long Shao, Li-xian Suna, Fen Xub, Yong-Jin Zou and Hai-Liang Chu Guangxi Key Laboratory of Information Materials, Guangxi Collaborative Innovation Center of Structure and Property for New Energy and Materials, School of Material Science and Engineering, Guilin University of Electronic Technology, Guilin, 541004, P.
By hydrogen generation materials, field hydrogen generation would help to reduce links of hydrogen storage and transport[3].
Wang, Research of hydrogen generation by the reaction of Al-based materials with water, Journal of Power Sources, 2013, 222, 188-195
Sun, Studies on hydrogen generation characteristics of hydrolysis of the ball milling Al-based materials in pure water, International Journal of Hydrogen Energy, 2007, 32, (14), 2809-2815
Zhou: Preparation and Hydrogen Generation for Al-LiBH4 Composite Materials.

Critical Factors for the Construction Company to Select the Green Building Materials Kuei-Yang Wu1*, Yen-Yu Wu2 , I-Ting Tsai1, Shi-Wen Yung3 1 Department of Architecture , National United University, Miao-Li City 36003, Taiwan 2 Graduate Institute of Environmental Engineering, National Taiwan University, Taipei City 10617, Taiwan 3 Department of Materials Science and Engineering, National United University, Miao-Li City 36003, Taiwan * Tel.: +886 37 381645; Fax: +886 37 354838.
Green Building Materials and Estimate Factor The concept of green materials was proposed in International Union of Materials Research Societies-IUMRS in 1988.
We can understand the building environment [5] through the relationships among human beings, environment, buildings and materials science.
[6] Che-Ming Jiang, Chen-Cheng Chen, Chiang-Chang Li, Wen-Cheng Shao, Jui-Lin Chen, Ming-Chin Ho: A Study on Healthy Green Building Materials Applying ISO Standards to the Climatic Features of Taiwan, Journal of Architecture, No 62, Special Issue on Technology, 2007, p1-18
[17] Chii-Reid Wu, Using ANP Method to Evaluate the Subsidization Policy of the Irrigation Association Membership Fee, Journal of Hummanities and Social Sciences of NHCUE, Vol. 2, No. 2, 2009, p.101-122

However, window products on the domestic construction materials market varies greatly,which not only hinders consumers to select economical and healthy product,but also would block the development of window products.
Weighted TOPSIS combined with characteristics of window materials, considered indicators such as economical, energy-saving, environmental,healthy and comfort, safety, aiming at the current situation of window material mainstream on the domestic market, comprehensive evaluation for window material which is suitable for china’s national condition, to provide support for the healthy development of window material market. 1 A design of the for energy-saving window material comprehensive evaluation 1.1 Establishment of the index system Index system of window material comprehensive evaluation should reflex indicators such as economical, energy-saving, environmental,healthy and comfort, safety, after data compilation and analysis,on the premise of considering various elements that affect the goodness of window materials,setting up comprehensive evaluation index system for window materials.
System hierarchical structure and subordination is shown in Table 1. 1.2 Index system description According to characteristics of each index,evaluation indexes are divided into two categories:Q-Type index and L-Type index.Q(quality)refers to the quality of window materials,they are benefit-oriented indexes,the greater it’s value,the better; Q(quality)refers to environmental, energy,resource,economical load of window materials,they are cost-oriented indexes,the smaller it’s value,the better.
[4] Bai Xiaoping,Fan Jia, A New Optimization Model about Enterprise Equipment Investment Project based on Integrated Entropy Weight and Fuzzy Matter Element, Research Journal of Applied Sciences. 10 (2012) 3885-3890
[7] Zheng Jun-wei.Mean-quantization Algorithm for Gray correlation Degree , Journal of Hangzhou Dianzi University. 8 (2010) 165-168

Materials and methods 2.1 Materials Dicyclopentadiene, Urea, Formaldehyde, Ethylene Maleic Anhydride copolymer and all other chemicals were purchased from Sigma-Aldrich.
References [1] S.Vander Zwaag, (2007),Self healing materials, Springer publications
[4] E.N.Brown, S.R.White, N.R.Sottos (2004), Microcapsule induced toughening in a self healing polymer composite, Journal of Materials Science, Vol.39, pp.1703-1710
[5] Emma Shansky (2006), Synthesis and characterisation of microcapsules for self healing materials, Research Report, Department of Chemistry, Indiana University, Bloomington
[8] Hammad Umer, Hemlata Nigam, Asif.M.Tamboli, M.Sundara Moorthy Nainar (2011), Microencapsulation: Process, Techniques and Applications, International Journal of Research in Pharmaceutical and Biomedical Sciences, Vol.2, pp.474-481

So, the specimen is untreated material and materials that was repeated 1 to 3 cycles in polymer impregnation and pyrolysis.
Fig.1 shows the cross-sectional image of specimens after melt impregnation that is untreated material and repeated polymer impregnate and pyrolysis materials.
Bonding force between the layers of the composite materials is increased by filling carbon.
Using HfC can improve heat resistance compared with the conventional materials.
Wang et al, Corrosion Science 66 (2013) 177–182