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Analysis of application of new photochromic materials in design of kindergarten Bo Xu 1, a , weiping Hu 2, b 1 Art of design, Faculity of Art and Communication, Kunming University of Science and Technology 2 Faculity of Art and Communication, Kunming University of Science and Technology axubo_10@sina.com, byncaid@sina.com, Keywords: Materials; design; smart materials; photochromic Abstract: New smart materials have taken the lead position in modern design, photochromic materials with base of polymer gradually step into the range of new decorative materials in design of kindergarten, abundant color is the intuitional demonstration to attract children, however, if the color doesn’t change at all for a long term, children will be bored in both aesthetics and vision, such new photochromic materials bring a new breakthrough for design of kindergarten.
With the rapid development of science and technology, humans have been able to display and utilize colors by various means in which the research and application of smart materials bring the new colorful life for us.
Guangdong building materials. 2007 [3] YongMing Dao, Inorganic photoluminescence materials and application [M].Chemical industry press. 2005 [4] YongMing Dao, Inorganic photoluminescence materials and application Ⅱ[M].
Chemical education. 2009 (4) [6] Ying Wang, Jian li, KaLi Gu,Intelligent color coating [J].China journal of surface engineering, 2007, 20 (3) : 9-14
Materials review, 005，19，(10)：3l一35.

In this paper, we focus on the need for the study of interface characteristics between different reinforced materials and clay, by making indoor drawing test with two kinds of reinforced materials commonly used in engineering and the same clay.
With the rapid development of Reinforced earth technology, different reinforced materials are also gradually applied to reinforced earth, In this paper, we focus on the need for the study of interface characteristics between different reinforced materials and clay, by making a indoor drawing test with two kinds of reinforced materials commonly used in engineering and the same clay.
The two kinds of reinforced materials drawing test results is shown in table 3.
Fujian Construction Science & Technology,2007(3):5-7
Journal of Chang’an University:Natural Science Edition,2005,25(6): 6-9

Influence barrier property of thin film packaging materials are the main factors.
[6]BERG S，BLOM H O，LARSSON T，et al.Modeling of Reactive Sputtering of Compound Materials[J].Journal of Vacuum Seience&Technology A，1987,5(2):202-207
[10]WAN Jianqing.Developing Trends of SiOx Packaging Materials[J].Plastics Packaging,2002， 12(2):20-23
[16]POBERTS A P,HENRY B M,SUTTON A P,et al.Gas Permeation in Silicon-Oxide/Polymer(SiOx/PET) Barrier Films:Role of the Oxide Lattice Nano-defects and Macro-defects[J].Journal of Membrane Science,2002,208(1-2):75-88
[18]INOUE Shozo,TOMINAGA Kikuo,HOWSON Ronald P,et al.Effects of Nitrogen Pressure and Ion Flux on the Properties of Direct Current Reactive Magnetron Sputtered Zr-N Films[J].Journal of Vacuum Science and Technology A,1995,13(6):2808-2813

The problem of biological materials can be their aging.
Journal of the Science of Food and Agriculture Vol. 86(2006) pp. 1781-1789
Gaofenzi Cailiao Kexue Yu Gongcheng/Polymeric: Materials Science and Engineering Vol. 31(2015), pp. 57-61
Reucroft: Processing and characterization of coconut shell powder filled UHMWPE: Materials science and Engineering A Journal Vol. 367(2004), pp. 57-62
Hoon: The potential of coconut shell powder (CSP) and coconut shell activated carbon (CSAC) composites as electromagnetic interference (EMI) absorbing material: Malaysian Journal of Analytical Sciences Vol. 20(2016), pp. 444-451.

References [1] Kuzel, R., Janecek, M., Matej, Z., Cizek, J., Dopita, M., and Srba, O., Microstructure of Equal-Channel Angular Pressed Cu and Cu-Zr Samples Studied by Different Methods, Metallurgical and Materials Transactions A-Physical Metallurgy and Materials Science, 41(2010) 1174-1190
R., Multimodal Ultrafine Grain Size Distributions from Severe Plastic Deformation at High Strain Rates, Materials Science and Engineering a-Structural Materials Properties Microstructure and Processing, 527 (2009) 187-191
Thermal Modeling of the Metal Cutting Process - Part I - Temperature Rise Distribution Due to Shear Plane Heat Source, International Journal of Mechanical Sciences, 42 (2000) 1715-1752
J., and Hatherly, M., Recrystallization and Related Annealing Phenomena, Elsevier, New York 2004 [14] Ahlborn, H., Hornbogen, E., and Koster, U., Recrystallization Mechanism and Annealing Texture in Aluminum-Copper Alloys, Journal of Materials Science, 4 (1969) 944-950
P., Kapoor, R., and Suwas, S., Effect of Strain Rate on Evolution of the Deformation Microstructure and Texture in Polycrystalline Copper and Nickel, Metallurgical and Materials Transactions a-Physical Metallurgy and Materials Science, 41A (2010) 2794-2804.

The Research on Material Balance Considering In-Seam and Intrabed Water Xinan Yu1,a, Hong Liu 2,b, Jihua Cao3,c and Jin Pang4,d 1,2,4Chongqing University of Science and Technology,China 3The geological institute of natural gas developing company in QingHai oil field,China ayxndavid@163.com,bliubrett@vip.sina.com,ccjhqh@petrochina.com,d3880896@qq.com Key words: in-seam water,intrabed water,material balance equation,dynamic reserve Abstract.
References [1] Yu Jin,Li Yun.The study process of gas and water two phases flowing through porous medium about water-driving gas reservoir.The journal of Southwest Petroluem University,2003.6,25 (3)
[2] Zhu HuaYin,FuDaQi.The expenrimental research about mechanism of fluid flowing through porous medium in low permeable gas reservoir.The journal of natural gas exploration and developmeng,32 (3)
[3] Qiu ZhongXian,Liu Yue Tian,Tu Bing.The mechanism of Non-Darcy flowing through low permeable porous medium.The journal of special oil and gas reservoir,2009.2,16 (1)
[4] Ashford F E.An evaluation of criticalmultiphase flow per-formance through wellhead chokes[J].Journal of Petroleum Technology,1974,8: 843-850

The high quality and functional green building materials can therefore be easily fabricated.
Introduction Green building materials are composed of renewable, rather than nonrenewable resources.
Those materials such alumina (Al2O3) and titania (TiO2) there are candidate materials of energy and green building materials.
The inorganic materials of alumina titania (TiO2) are basic materials used in the modern building for example, harder Al2O3 tile and photocatalyst of TiO2 film.
Diau, Journal of The Electrochemical Society, Vol. 156 (2009), p.

The supplementary cementitious materials (microsilica - MIC, metakaoline - MET and fly ash - FA) were added to the wet mixture.
Construction and Building Materials Vol. 141 (2017), pp. 271–288
IOP Conference Series: Materials Science and Engineering 246, paper no. 012012
Journal of materials research Vol. 7 (1992), pp. 1564-1583
Ulm and K.J. van Vliet: Grid Indentation Analysis of Composite Microstructure and Mechanics: Principles and Validation, Journal of Material Science and Engineering A Vol. 430 (2006), pp. 189 – 202.

Materials Ordinary portland cement P.O42.5 was used, produced by Tuotang cement company, Nanjing.
Acknowledgements This work was financially supported by Science Project of JiangsuProvincial Communications Department (2013-C-04).
Li: Journal Highway and Transportation Research and Development, Vol.25 (2008),p. 45 (in Chinese) [3] P.
Wei: Journal Materials in Civil Engineering, Vol.22(2010),p. 1282(in Chinese) [4] Y.
Yang: International Journal Pavement Engineering, Vol. 14 (2013), p. 552 [6] J.

Micro-deformation mechanism of granular materials under different boundary conditions based on DEM simulation Zhaoxia TONG1,a ,Min ZHOU1,b and Yangping YAO1,c 1School of Transportation Science and Engineering, Beihang University, Beijing,China atongzx@buaa.edu.cn, blwmdelp@foxmail.com, cypyao@buaa.edu.cn Keywords: Boundary condition; Micromechanics; Discrete element method (DEM); Granular material; Abstract.
The micro-deformation mechanism of anisotropic granular materials under different boundary conditions was analyzed in detail.
Meanwhile, particle rotation plays a dominant role in the development of shear bands in granular materials.
The mechanical properties of granular materials were affected greatly by the long axis orientation of particles.
Dafalias: International Journal for Numerical and Analytical Methods in Geomechanics, Vol. 35(10) (2011), p. 1098-1126 [7] LianWei ZHANG: Research on Failure Mechanism and Strength Criterion of Anisotropic Granular Materials and Its Application.