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With continued research and development, nanocomposite films have the potential to revolutionize materials science and benefit many industries [1-2, 6, 15].
The combination of both materials, PDMS and TiO2 nanoparticles, creates a synergistic effect, resulting in a material with enhanced properties such as improved transparency, mechanical strength, and antibacterial activity [6-7, 12-15].
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Brinson, Graphitic nanofillers in PMMA nanocomposites—An investigation of particle size and dispersion and their influence on nanocomposite properties, Journal of Polymer Science Part B, 45 (2007) 2097–2112

ZnFe2O4is a commercially important material and has been widely used as magnetic materials gas sensor, catalysts, photo-catalysts, absorbent materials and so on [6].
Acknowledgement This work was supported by the program for research and development of smart magnetic materials (Indonesian Government, DIPA 2015-2019), Center for Science and Technology of Advanced Materials, National Nuclear Energy Agency, Indonesia.
Wu, Zinc ferrite composite material with controllable morphology and its applications, Materials Science & Engineering B. 224 (2017) 125–138
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To synthesize nano-sized materials, hydrothermal method has been proven to be promising due to its simplicity, low cost production and high yield.
Osada, et al., "BaTiO3 nanocube and assembly to ferroelectric supracrystals," Journal of Materials Research, 28, pp. 2932-2945, 2013
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However, the above materials still have a higher coercive electric field (Ec) and square P-E loops, it is not an ideal materials for energy-harvesting application [18].
Acknowledgements This work was supported by the National Nature Science Foundation of China (61361007) and Guangxi Key Laboratory of Information Materials (1310001-Z, 1210908-204-Z, 131024-Z).
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Mathematical Modeling of the Process of Reduction of the Material Consumption of Gas Transmission System Elements Narine Pirumyan1,a*, Mihran Stakyan1,b and Hmayak Khazaryan2,c 1National University of Architecture and Construction of Armenia, 105 Teryan Street, Yerevan, Republic of Armenia 2"Gazprom Armenia" CJSC, Tbilisyan Highway, 43, Yerevan, Republic of Armenia a*pirumyannarine@gmail.com, bstakyan.mihran@yandex.ru, chmayakkhazaryan@yahoo.com Keywords: Structural materials, Gas transmission system, Corrosion fatigue, Corrosion coefficient, Surface hardening, Anti-corrosion coating, Material consumption, Material defects, Low-carbon and low-alloy structural steels.
Steklov, Resistance of materials and structures to stress corrosion, Mashinostroenie, Moscow, 1990
Chibukhchyan, M.G.Stakyan O.S.Chibukhchyan, Improving the Carrying Capacity of Structural Elements of Vehicles by the Corrosive Strength Criterion, Journal of Machinery Manufacture and Reliability, 48(6) (2019) 551-556
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Galstyan, Software processing of the test results of building materials, Key Engineering Materials. 828 (2019) 121-128

Journal of Refractory Metals and Hard Materials 59 (2016) 121-131
Journal of Refractory Metals & Hard Materials. 27 (2009) 288-299
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Pattern of the B4C Ceramics Surface Deformation at Local Loading /, // Advanced Materials Research. 872 (2014) 60-64.

Introduction Over the past few decades, a lot of activities have been done towards modification of exist polymers to produce new materials with desirable properties.
Riahi, Effects of coupling agents on the tensile properties of calcium carbonate filled LDPE compatibilized with maleic anhydride-g-LDPE (Part I), International Journal of Polymeric Materials. 57(4) (2008) 295-318
Yu, Grafting of maleic anhydride onto polyethylene through a green chemistry approach, Journal of Applied Polymer Science. 110(4) (2008) 2261-2266
Wang, The status of recycling of waste rubber, Materials & Design. 22(2) (2001) 123-128
Effects of PEG and PSA on water‐swelling behavior, Journal of Applied Polymer Science. 79(14) (2001) 2509-2516

Mathematical Model of Thermal Field for an Insulation Composite Wall In fact, the temperature field for an insulated composite wall belongs to a three-dimensional transient one .For simplification, we will employ following assumptions ① all the materials of the insulated composite wall are homogeneous and isotropic; ② thermo–mechanical parameters of all the materials are constants; ③ thermal resistance between two different materials is omitted; ④ only the temperature gradient takes place along the thick direction of the wall.
Thermo-mechanical parameters of all the materials are shown in Table.1 and Table.2. , , , , .
This is because the conductivity of the insulated material is much smaller than those of other materials.
[2] Z.L.Li, G.Gan, J.C.Tang: Journal of Zhejiang University(Engineering Science(in Chinese)(2004)
[3] W.L.Jin, J.C.Ye,D.Q.Zou, et.al: Journal of Zhejiang University(Engineering Science)(in Chinese)(2002)

Clark, High-density, low-enriched uranium fuel for nuclear research reactors, Journal of Materials 55(9) (2003) 55-58
Keiser Jr, Effects of heat treatment on U–Mo fuel foils with a zirconium diffusion barrier, Journal of Nuclear Materials 460 (2015) 153-159
%Mo monolithic fuel plate in AA6061 matrix with Zr diffusion barrier, Journal of Nuclear Materials 402(1) (2010) 8-14
AA6061 HIP bonded cladding–cladding interface, Journal of Materials Processing Tech.
Wachs, Fission induced swelling and creep of U–Mo alloy fuel, Journal of Nuclear Materials 437(1) (2013) 37-46