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A special place here is granted to engineering and science education, which are less dependent than the other educational areas on the socio-cultural characteristics of the countries, but are in highly demand in the labor market.
The main of many ways of solving this problem can be the following: holding international conferences on actual problems of science and engineering, the development of international education [2] including exchange of professors to teach students elective courses, the development of distance learning of natural sciences and engineering, the development of the International Institute of Magistracy and post graduate courses.
Educational content is the main and most difficult element of the educational process and includes curricula, programs, standards and materials of training courses.
Today, one can find in on-line library foreign scientific journals indexed in EBSCO, JSTOR, Elsevier.
Informatization of education in Far Eastern Federal University //Modern studies of social problems (electronic scientific journal), № 12 (20), 2012, http://sisp.nkras.ru/e-ru/issues/2012/12/resnik.pdf [2] Resnik B.L., The university`s informational medium as a basis of its international activity // Philosophy of education, 2013, № 1(46), P.76-78

With mesoporous materials, Al-SBA-15 as target, the effects of scatter slit, soller slit and receiving slit of Bruker D8 ADVANCE diffractometer on the small-angle diffraction pattern based on information, such as the background intensity, peak height, intensity and full width at half maximum, which provide the evidence for slits selection.
Introduction X-ray diffraction (XRD) analysis, first method to investigate the microstructure of a material, has been applied in physics, chemistry, earth science, materials science and so on.
Yang, The development and application of X-ray diffraction, Journal of Shanxi Normal University (Natural Science Edition). 21 (2007) 72-76
Liang, Powder diffraction method of crystal structure, first ed., Science press, Beijing, 2003
Tang, Study on Experimental Conditions of Small-angle X-ray Diffraction on Mesoporous Materials, Journal of Instrumental Analysis, 28 (2009) 365-367

The clips and the colloidal are selected elastic line materials, plastic deformation is not considered.
China Clvil Engineering Journal, 2007, (1): 54-58
China Civil Engineering Journal, 2006, 39(6): 74-78
China Civil Engineering Journal, 2010, 43(2): 79-87
Journal of Jiangsu University(Natural Science Edition), 2012, 33(6): 726-729.

Alumina fiber products have high modulus and strength that are resistant toward the attacks of molten metals and non-oxide materials up to 1000°C.
Azad (2006): Materials Science and Engineering, Vol.
Ramakrishna (2007): Journal of Materials Science, Vol. 42(6), p. 2189-2193
Aleksic: Materials Letters, Vol. 42(6), p. 350-355
Kug (1999): Journal of Colloid and Interface Science, Vol. 211, p. 110-113.

Biodegradable metallic materials gain space in implantable materials field based on the applications that can fulfill.
B.McCullough, Revolutionizing orthopaedic biomaterials: The potential of biodegradable and bioresorbable magnesium –based materials for functional tissue engineering, Journal of Biomechanics, 47 (2014), 1979-1986
Cimpoesu, Preliminary results of FeMnSi+Si(PLD) alloy degradation, Key Engineering Materials. 638 (2015), 117-122
Shanov, Corrosion protection of biodegradable magnesium implants using anodization, Materials Science and Engineering C 31 (2011), 215–223
Niinomi, Mechanical biocompatibilities of titanium alloys for biomedical applications, Journal of the Mechanical Behavior of Biomedical Materials 1 (2008), 30–42.

amysara.rinni@gmail.com, b*wanrafizah@umt.edu.my, camyaida94@gmail.com dadhiha.ibrahim@gmail.com, efazilah@umt.edu.my and fmohdsabri@umt.edu.my, Keywords: Ce doped ZnO, photocatalytic treatment, E. coli, S. aureus, antifouling, rare earth materials Abstract.
Therefore, a novel antifouling based materials with the incorporation of nanotechnology has been developed for the prevention of biofouling in its initial stage through photocatalytic treatment.
In addition to that, very limited works reported the efficiency of these catalytic materials for removal of microbial pollutants or antifouling agent.
Kim, Inverted polymer solar cells with brush-painted ZnO electron transport layer, Journal of industrial and engineering chemistry. 59 (2018) 335-340
Ursu, New insights into structural and magnetic properties of Ce doped ZnO nanoparticles, Journal of Alloys and Compounds. 757 (2018) 60-69

Abstract Mechanical design engineers design products by selecting the best possible materials and geometries that satisfies the specific operational requirements of the design.
The materials considered for the gear pair are given below.
V.Srinivasa Raman, A Performance Study of Real Coded Genetic Algorithm on Gear Design Optimization, Advanced Materials Research, Vols. 622-623, pp 64-68 (2013) [2] Tribhuwan Singh, Mohd.
Parvez, Comparative Study Stress Analysis of Helical Gear using AGMA Standards and FEM, International Journal of Engineering Sciences & Research Technology, ISSN:2277-9655 (2013) [3] B.Venkatesh, V.
Kumar, Parameter adaptive harmony search algorithm for unimodal and multimodal optimization problems, Journal of Computational Science, vol. 5, no.2, pp. 144–155 (2014)

The first criterion used to differentiate vinegars was the type of raw materials of vinegars.
Three trends can be observed: Vinegars with different raw materials could be classed in different groups, this owing to vinegars made of different materials with different ingredients and contents in the vinegar fermentation modes[36,37,38,39]; Group B, E and F were proximity may be owing to the single type material; Samples with the same raw materials could be classed in the same group.
The classification of the vinegars according to six kinds of materials is absolutely correct.
Journal of Food Engineering.
Journal of Chromatography A.

Introduction With the enhancing awareness of environment protection and sustainable utility of resources, it becomes a hot research area to use natural or renewable raw materials to produce biodegradable materials.
[2] Zhang Huizhen, Liu Bailing and Luo Rong: Journal of the Graduate School of the Chinese Academy of Sciences 22(2005): 658-664
[5] Zhang Huizhen, Liu Bailing and Luo Rong: Journal of the Graduate School of the Chinese Academy of Sciences 23(2006): 607-613
[7] Liu B L, Zeng X CH, and Yang J H: Chinese Journal of Materials Research 14(2000): 108-112
[18] Zhang Ruiping, Ding Matai: Journal of Functional Materials 38(2007): 2004-2007.

Materials Letters 132 (2014) 302-306
Journal of Materials Science 35 (2000) 1303-1313
Journal of Materials Engineering and Performance 21 (2012) 324-330
Journal of Materials Chemistry A 3 (2015) 2876-2882
Journal of Materials Processing Technology 209 (2009) 2104-2110