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Characterization of Speherical Helices in Euclidean 3-Space

References [1] Ahmad T. Ali, Position vectors of a spacelike general helices in Minkowski Space E 1 3 $E_1^3$ , arXiv:0908.004lvl [mathDG] 3 Aug 2009. [2] A. A. Lucas and P. Lambin, Diffraction by DNA, carbon nanotubes and other helical nano structures, Rep. Prog. Phys . 68 (2005) 1181-1249. [3] C. D. Toledo-Suarez, On the arithmatic of Fractal dimension using hyperhelices, Chaos Solitions and Fractals 39 (2009) 342-349. [4] H. H. Hacısalihoğlu, Differential Geometry, Faculty of Sciences and Arts, University of Inönü

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Effect of microwave power on EPR spectra of natural and synthetic dental biocompatible materials

different dental implant surfaces. Dent. Mater. pii , S0109-5641(14)00192-4. DOI: 10.1016/ 6. Panduric, D. G., Juric, I. B., Music, S., Molcanov, K., Susic, M., & Anic, I. (2014). Morphological and ultrastructural comparative analysis of bone tissue after Er:YAG laser and surgical drill osteotomy. Photomed. Laser Surg ., 32 (7), 401–408. 7. Ziaie, F., Hajiloo, N., Alipour, A., Amraei, R., & Mehtieva, S. I. (2011). Retrospective dosimetry using synthetized nano-structure hydroxyapatite. Radiat. Prot. Dosim ., 145 (4), 377–384. 8

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Non-Destructive Analysis of Surface Integrity on Parts from Austenitic Steel for Nuclear Industry

-4205 [7] Prevéy, P.S. (1986): X-ray Diffraction Residual Stress Techniques, Metals Handbook 10, Metals Park: American Society for Metals, p. 380-392,. [8] Fitzpatrick, M.E. (2005). Determination of Residual Stresses by X-ray Diffraction. Measurement Good Practice No. 52. National Physical Laboratory, Teddlingtoon. [9] Stancekova, D., Semcer, J., Holubjak, J., Drbul, M. (2014): Machinability of nano-structured biomaterials for dental implants. In Communications, vol. 16, No. 3A, 96-100, [10] Brezina, M., Kupca, L

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Treatments of reverse osmosis concentrate using natural zeolites

. 116–123. H assanpour A slania S., G hafourianb H., A rdakanic M.R., T orabid S. 2013. Feasibility study of reducing the total dissolved solids (TDS) from contaminated water in radish plant ( RaphanusSativus ) using nano activated carbon and zeolite. Journal of Nano Structures. Vol. 3. Iss. 2 JNS 3 p. 219–225. J ing G., W ang X., Z hao H. 2009. Study on TDS removal from polymer-flooding wastewater in crude oil: extraction by electrodialysis. Desalination. Vol. 244 p. 90–96. M ohammadesmaeili F., K abiri B.M., A bbaszadegan M., F ox P

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New photocatalyst for decomposition of humic acids in photocatalysis and photo-Fenton processes

.10.078. Moriguchi, T., Tahara, M. & Yaguchi, K. (2006). Adsorbability and photocatalytic degradability of humic substances in water on Ti-modified silica. J. Coll. Interf. Sci. 297, 678-686. DOI: 10.1016/j.jcis.2005.11.002. Qiao, S., Sun, D.bD., Tay, J.bH. & Easton, C. (2003). Photocatalytic oxidation technology for humic acid removal using a nano-structured TiO 2 /Fe 2 O 3 catalyst. Wat. Sci. & Techn. 47, 211-217. Zhang, X., Pan, J.H., Fu, W., Du, A.J. & Sun, D.D. (2009). TiO 2 nanotube photocatalytic oxidation for water

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Investigating the Effect of Nanomaterials on Resistance Parameters of Clay Soil

nanomaterils, Research Journal of Appiled Sience , Engineering and Technology, 8(4), pp. 503-509. Mohammadi, M. and Niazian, M., 2013. Investigation of nanoclay effect on geotechnical properties of rasht clay. International Journal of Advanced Scientific and Technical Research , 3(3), pp. 37-4. Mohapatra, M., and Anand, S., 2010. Synthesis and Applications of Nano-structured Iron Oxides/Hydroxides, International Journal of Engineering, Science and Technology, 2(8), pp. 127-146. Neethu, S.V. Remya, S. 2013. Engineering behaviour of nanoclays

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Thickness and tensile stress determination of black silicon layers by spectral reflectance and Raman scattering

, 2002. [12] M. Pakhotnyuk, R. S. Davidsen, M. S. Schmidt, R. Malureanu, E. Stamate, O. Hansen, “Lifetime of Nano-Structured Black Silicon for Photovoltaic Applications”, Proceedings of 32nd European Photovoltaic Solar Energy Conference and Exhibition , pp. 764–767, 2016. [13] S. Franssila, Introduction to Microfabrication , Second Edition, John Wiley & Sons, Ltd., Chichester, 2010. [14] A. R. Hind and L. Chomette, The determination of thin film thickness using reflectance spectroscopy – Application Note , Agilent Technologies, Inc., 2011

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Comparison of Mechanical and Thermal Comfort Properties of Tencel Blended with Regenerated Fibers and Cotton Woven Fabrics

). Visualisation of the Nano-Structure of Tencel®(Lyocell) and Other Cellulosics as an Approach to Explaining Functional and Wellness Properties in Textiles, Lenzinger Berichte, 85(31-37. [24] Männer, J., Schuster, K.C., Suchomel, F., Gürtler, A. and Firgo, H. (2004). Higher performance with natural intelligence, Lenzinger Berichte, 83(99-110.

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Structural and Optoelectronic Properties of Zinc Sulfide Thin Films Synthesized by Co-Precipitation Method

-370. 7. Bindu, K. R.; Sreenivasan, P. V.; Martinez, A. I.; Anila, E. I. a-Axis oriented ZnS thin film synthesised by dip-coating method. J. Sol-Gel Sci. Technol. 2013 , 68 , 351-355. 8. Ummartyotin, S.; Bunnak, N.; Juntaro, J.; Sain, M.; Manuspiya, H. Synthesis and luminescence properties of ZnS and metal (Mn, Cu)-doped-ZnS ceramic powder. Solid State Sci. 2012 , 14 , 299-304. 9. Goktas, A.; Aslan, F.; Yasar, E.; Mutlu, I. H. Preparation and characterisation of thickness-dependent nano-structured ZnS thin films by sol-gel technique. J. Mater

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Formulation and optimization of fenofibrate lipospheres using Taguchi’s experimental design

, P. Prabhu and J. V. Kamath, Nano structured lipid carriers: A novel topical drug delivery system, Int. J. Pharm. Tech. Res. 4 (2012) 705-714. 20. M. Nasr, S. Mansour, N. D. Mortada and A. El. Shamy, Lipospheres as carriers for topical delivery of aceclofenac: Preparation, characterization and in vivo evaluation, AAPS PharmSciTech . 9 (2008) 154-162; DOI: 10.1208/s12249-007-9028-2. 21. M. Ozyazici, E. H. Gokçe and G. Ertan, Release and diffusional modeling of metronidazole lipidmatrices, Eur. J. Pharm. Biopharm. 63 (2006

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