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Bhosale, Photoelectrochemical (PEC) studieson CdSe thin films electro- deposited fromn on-aqueous bath on different substrates, Bull Material Science, 30 (2007) 321-327 [2] F.
Yang, Directional CdS nanowires fabricated by chemical bath deposition, Journal of Crystal Growth, 246 (2002) 108-112 [4] H.
Kim, Diameter- tunable CdSe nanotubes from facilesolution-based selenization of Cd(OH)2 nanowire bund les for photoelectrochemical cells, Chemical Materials, 21 (2009) 1875-1883 [5] R.
Yan, Rapid formation of CdS, ZnS thin films by microwave-assisted chemical bath deposition, Materials Letters, 59 (2005) 1497-1501 [6] R.
Ito, Solar cells with Cu(In1_xGax)S2 thin films prepared by sulfurization, Solar Energy Materials and Solar Cells, 67 (2001) 225-230 [10] K.

The salt fog apparatus was used for testing the general corrosion behavior of the base materials and the welded materials.
Son, The effect of material locations on the properties of friction stir welding joints of dissimilar aluminium alloys, Science and Technology of Welding and Joining. 15 (2010) 331–336 [3] C.W.
Wei, Friction stir welding of dissimilar materials between AA6061 and AA7075 Al alloys effects of process parameters, Materials and Design. 56 (2014) 185–192 [6] Y.
Ma, Friction stir welding and processing, Materials Science and Engineering R. 50 (2005) 1-8 [10] R.
Bhadeshia, Recent advances in friction stir welding process, weldment structure and properties, Progress in Materials Science. 53 (2008) 980-1023 [11] Yong Zhao, Zhengping Lu, Keng Yan, Linzhao Huang, Microstructural characterizations and mechanical properties in underwater friction stir welding of aluminum and magnesium dissimilar alloys, Materials & Design. 65 (2015) 675-681 [12] Long Wan, Yongxian Huang, Weiqiang Guo, Shixiong Lv, Jicai Feng, Mechanical Properties and Microstructure of 6082-T6 Aluminum Alloy Joints by Self-support Friction Stir Welding, Journal of Materials Science & Technology. 30 (2014) 1243-1250

With their discovery at the end of the last century, materials scientists received fundamentally new tools for materials designing and controlling their properties.
Fullerenes and fullerene-like structures: the basis for promising materials // Journal of Engineering Physics and Thermophysics. – 2001. – Vol. 74.
Containing carbon nanoparticles materials in hydrogen energy.
Dordrecht: Springer Science, 2011. – P. 23–39
Properties and some applications of fullerene - containing materials//Exploratory materials science research.–2022, Vol. 4, № 1. – P. 37–49

The membrane is made of composite materials: a glass textile structure equipped with the detector yarns and molded in an epoxy resin.
Experimental Materials and process.
Vi, Fabric Selection for Textile Moisture Sensor Design, Material Science.
Pötschke, Liquid sensing: smart polymer/CNT composites, Materials Today, vol. 14, 2011, pp. 340–345
Rocha, Polymer blends based on polyolefin elastomer and polypropylene, Journal of Applied Polymer Science, vol. 66, 1997, pp. 2005–2014

Constantinescu, Work of indentation approach to the analysis of hardness and modulus of thin coatings, Materials Science and Engineering A 423, (2006), p. 28–35
Buisson, Experimental and numerical analyses of instrumented and continuous indentation of treated steels, Journal of Materials Processing Technology 141 (2003), p. 276–283
Cambier, Relevance of instrumented microindentation for the assessment of hardness and Young’s modulus of brittle materials, Materials Science and Engineering A 456, (2007), p. 252–260
Lesage, Comparison of instrumented Knoop and Vickers hardness measurements on various soft materials and hard ceramics, Journal of the European Ceramic Society 27 (2007), p. 1905–1911
Meille, Vickers Indentation Curves of Elastoplastic Materials in Microindentation Techniques in Materials Science and Engineering, ASTM STP 889, 1st Ed., (1986), Blau and Lawn Editions, Philadelphia, p. 72–89

References [1] J.Eustine, Flow of water in curved pipes, proceedings of the royal Society of London, Series A 84 (1910) 107-118 [2] Netrapal Singh, Abdur Rahim and Mohd Islam, Flow characteristics of a symmetric Y-shaped diffusing duct with zero yaw angle, Indian Journal of Engineering and Materials Sciences, Vol.20, April 2013 125-131 [3] Manoj Kumar Gopaliya, Mahesh Kumar, Shailendra Kumar and Shiv Manjaree Gopaliya, Analysis of performance characteristics of S-shaped diffuser with offset, Aerospace Science and Technology 11(2007) 130-135 [4] Manoj Kumar Gopaliya, Piyush Goel, Sunil Prashar and Anil Dutt, CFD analysis of performance characteristics of S-shaped diffusers with combined horizontal and vertical offsets, Computers and Fluids 40(2011) 280-290 [5] Anand R.
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BCOD can be obtained by measuring BOD5[10],and XS be calculated by Equation 2.At last , XI can be calculated by Equation 3 because of the principle of conservation of materials.
Papaspyros :Chemical Engineering Journal, 2008.143(1), p. 96-110
:Water Science & Technology, 2003. 48(5), p. 157-166
Van Loosdrecht:Water Science & Technology, 2002. 45(6), p. 77-87
Šimůnek: Vadose Zone Journal, 2012. 11(2)

Materials and Methods 1,2,4-TCB was purchased from TCI Chemicals Co.
In EDDAB (c) solution, the dechlorination reaction may occur, due to generate new material benzene degradation rate is less than the degradation rate of the new material itself in the sampling period, photodegradation products can not be detected.
Vol. 15 (2002), p. 3 [4] Jie Cao, Ruifeng Xu, Hua Tang, Suisi Tang, Minhua Cao: Science of the Total Environment.
Vol. 32(1998), p. 1989 [10] Raoul Zana: Journal of Colloid and Interface Science.
Sharma: Journal of Colloid and Interface Science.

Solution by Finite Element Method Part Materials.
Realization of Materials Removed.
The removal of the materials was realized by element birth and death technology.
The redistribution of residual stress and deformation during the remove the materials were predicted by the model.
Zhang, et al: Chinese Journal of Aeronautics vol.18 (2005), p.175-179

This study provides a basis for crack identification. 6 Acknowledgements This work was financially supported by the project of National Natural Science Foundation of China (No. 51075314), Science and Research Planning Project of Educational Commission of Shaanxi Province (No. 2010JK621), and Research Foundation for Talented Scholars of Xi'an University of Architecture and Technology (No.
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Maiti, Modeling of transverse vibration of short beams for crack detection and measurement of crack extension, Journal of Sound and Vibration 257 (3) (2002) 559~583