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Ventilation cooling material is an innovative concept kind of thermal infrared camouflage material yielded recently, mesh-covering cloth is a typical representative of ventilation cooling material, which mainly use mesh cloth and objects being disguised to form an effective combination, in order to reduce heat storage of surface by air convection, correspondingly, to reduce the infrared heat of equipment surface, thus achieving stealth by infrared camouflage.
Fig. 1 Looming draft of square meshes Fig. 2 Looming draft of diamond meshes Fig. 3 Looming draft of longitude-symmetric Fig. 4 Latitude-symmetric diagonal pattern 2.1.2 Design of Process Parameter (1) specification design of raw material and fabric: linear density of polyamide staple yarn is 244d tex, the warp and weft count of fabric are 180 pieces/10cm
Conclusion (1) Raw materials: with the same parameters of fabric tightness, meshes distribution has a great influence on mechanical properties and its stability of canopy mesh fabric
References [1] JIN Yong-an, Development of new construction fabric, J , Wool Textile Journal, 5 ( 2007 ) 43- 44 [2] YU Weidong, CHU Yuancai, Textile Physics, first ed., DONGHUA UNIVERSITY PRESS CO,LTD, Shanghai, 2002
[3] SUI Quanxia, Development and Analysis of New Tent Products, J, Tianjin Textile Science & Technology, 2(2010)4-7

Effects of Firing Temperature and Time on the Luminescency of Phosphors in Strontium Aluminate System Co-doped by Eu2O3 and Dy2O3 and Prepared by Solid State Reaction Processing Selvin Yesilay Kaya1, Bekir Karasu2, Guray Kaya3, Erkul Karacaoglu2 1Anadolu University, Faculty of Fine Arts, Department of Glass, Eskisehir, Turkiye 2Anadolu University, Faculty of Engineering and Architecture, Department of Materials Science and Engineering, Eskisehir, Turkiye 3Dumlupinar University, Faculty of Engineering, Department of Ceramic Engineering, Kutahya, Turkiye Email: 1syesilay@anadolu.edu.tr, 2bkarasu@anadolu.edu.tr, 3gurayk@anadolu.edu.tr Keywords: Photoluminescence, Phosphor, Rare earth, Long afterglow, Firing time and temperature, Characterization.
Experimental SrCO3 (99.5%), Al2O3 (99.99%), H3AlO3, Eu2O3 (99.99%), Dy2O3 (99.9%), (99.95%), Y2O3, and H3BO3 were used as starting materials.
They were weighed according to the following recipes: Starting Materials Amounts (moles) Al2O3 0.23-0.48 SrO 0.25-0.46 Eu2O3 0.001-0.003 Dy2O3 0.002-0.006 Y2O3 0.001-0.003 B2O3 0.02-0.06 The weighed batches were wet-milled in zirconia bowls using zirconia balls and isopropyl alcohol at 200 rpm for 1 hour.
References [1] W., Haoyi, H., Yihua and W., Yinhai, Journal of Luminescence, Volume 130, Issue 1, Pages 127-130, 2009

Numerical Simulation of The Car Oil Pump Support Die Casting Ran Wei 1, a, Yong Su 1,b , Yunji Zhang 1,c 1School of Materials Science and Engineering, Hefei University of Technology, Hefei, Anhui 23009, P.R.
In this thesis, mould material is 3Cr2W8V, casting material is YZAlSi11Cu3 and the die casting machine model is DCC400.
SABAU: Metallurgical and Materials Transactions B Vol. 31 (2006), p.131-140 [4]Si-Young Kwak: World Foundry Congress Vol. 69 (2010) p.112-116 [5]Pan Xianzeng: Casting Technology Vol. 5 (2005), p.397-400 (in chinese) [6]J.
Newman: International Journal of Fatigue Vol.206 (2012), p.10

Temperature leads to thermal stress , thermal deformation and changes in material properties, therefore, affect the vibration characteristics .
Using theoretical or numerical methods, has been studied for thermal vibration of composite materials and some parts.
Can be considered the natural frequency change due to temperature change has two factors; one is the material properties with temperature changes, the other is the thermal stress.
Here, A is the natural frequency without considering temperature change and thermal stress, B is the natural frequency only considering the temperature-dependent material properties, C is the natural frequency only considering　thermal stress，D is the natural frequency considering the temperature-dependent material properties　and thermal stress.
Xuli: Journal of Vibration, Measurement & Diagnosis.

., 47, 680021 Khabarovsk, Russia 2Federal State Budget Institution of Science Institute of Chemistry and Technology of Rare Elements and Mineral Raw Materials, Kola Scientific Center (ICTREMRM KSC), Russian Academy of Sciences, Akademgorodok, 26a, 184209 Apatity, Russia apikoul2008@gmail.com, bsidorov@chemy.kolasc.net.ru, cpalat_mn@chemy.kolasc.net.ru Keywords: lithium niobate single crystals, сonoscopic patterns, optical homogeneity Abstract.
Intorduction Crystals of lithium niobate (LiNbO3) are unique in their capabilities of nonlinear optical materials.
Rauber, Chemistry and physics of lithium niobate, Current topic in materials science, ed.
Series: Materials Science and Engineering. 49 (2013) 012037
Punin, Optical anomalies in crystals, SPb.: Science, 2004.

Modern metallic materials - presence and future.
Department of Materials Engineering and Metallurgy, Katowice, 2009 (in Polish)
Kedroň, ECAP methods application on selected non-ferrous metals and alloys, Archives of Materials Science and Engineering 43 (2010) 69-76
Niewielski, Plasticity and corrosion resistance of magnesium alloy WE43, Archives of Materials Science and Engineering 51 (2011) 16-24
Journal of Achievements in Materials and Manufacturing Engineering 45 (2011) 132-140

Laser Glazing of Peacock Blue Glaze on Porcelain Hua Wu1,a, JiWeiFan2,b, MingJuChao1,*,c, LinJieFu1,d , HeChen1,e 1Key Laboratory of Materials Physics of Ministry of Education, School of Physical Science and Engineering, Zhengzhou University, Zhengzhou, 450052, China 2Zhongyuan University of Technology, 41 Zhongyuan Road Middle, Zhengzhou, 450007, China awuhua060100@sian.com,bjfanuk@hotmail.com,cchaomingju@zzu.edu.cn,d1667818700@qq.com,e574950502@qq.com Keywords: Laser glazing, Peacock blue glaze, Quality of glaze.
Experimental Materials.
West:Journal of Materials Science,Vol. 29(1994), No. 5285
MorenzaMorenza: Applied Surface Science, (2007) ，No. 253, p. 7733
Gu: Chromatology(Science Press, China 2006).

Material and Methods Coordinate Conversion of the GPS Receiving Data.
Acknowledgments This work was supported by 863 National High-Tech Research and Development Plan (2011AA100705) and Zhejiang Provincial Natural Science Foundation of China (Z3090295).
C., Beutler G. and Blewitt G.: Journal of Geodynamics, Vol. 25(1998), p.213-240
[6] Dean L., lliqiong L.: Journal of Southwest JiaoTong University, Vol. 36(2001), p.365-368

The material parameters are using default values.
Journal of Zhejiang University (Engineering and Technology Edition ),Vol.40(10)(2006), p.1738~ 1742
[7] Yang, W., Gu, M.(2003).”The tall building 3-dimensional unsteady wind field numerical simulation”J.Journal of Tongji University ( NATURAL SCIENCE EDITION ), Vol.31(6) (2003) , p. 647 -651

The Analysis of Relationship between Stirrup and Longitudinal Reinforcement with Regression Analysis Guoliang Zhu a Guizhou Construction Science Research & Design Institute Co.
Stirrups reduce the unsupported length of longitudinal reinforcement, so that the longitudinal reinforcement does not prematurely buckling instability, to maximize the longitudinal reinforcement material strength; in turn, the longitudinal reinforcement reduces unsupported length of stirrup equally, so that non-effective restraint area decreases [4].
Cao, Influence of longitudinal steel on ductility of square columns under axial load, Journal of Guizhou University of Technology, 5 (2002)
Cao, Research on application of confined concrete in beams, Journal of Guizhou University, 1 (2003)