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Oil Column Method for Magnetic Microspheres with Core-shell Structure Lianqing Yu1, 2, a, Kaituo Dong2, b, Qianqian Zhi2, c and Mingjiang Cai2, d 1Key Laboratory of New Energy Physics & Materials Science in Universities of Shandong (China University of Petroleum), China 2,College of Science China University of Petroleum QingDao 266580, China aiyy2000@163.com, bkaituodong@163.com, czhiqianqian521@126.com, d1032414301@qq.com Keywords: Spherical alumina, γ-Fe2O3 magnetic core, Oil column method, Magnetic carrier.
Magnetic core materials are mainly magnetic compound [4-7], and Al2O3, SiO2, ZrO2 used as carrier to protect the core.
Huang, Effect of Zr on High Properties Consistency of NdFeB Magnets, Rare Metal Materials and Engineering, 38 (2009) 465-467
Yan, Production and Corrosion Resistance of NdFeBZr Magnets with an Improved Response to Thermal Variations during Sintering, Journal of Magnetism and Magnetic Materials, 323 (2011) 1152-1155
Toth, et al., Preparation of terbutylazine imprinted polymer microspheres using viscous polymerization solvents, Journal of Separation Science, 32 (2009) 3347-3358.

References [1] B L Mordike, T Ebert: Materials Science and Engineering A, Vol. 302(2001), p.37−45
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It is assumed that the plates are homogeneous and the thermal and elastic properties of materials are temperature independent.
However, the material properties are temperature dependent for many materials.
It is assumed that temperature varies across the plate thickness and the elastic, and thermal properties of material are functions of temperature, which will result in the inhomogeneity of materials and be considered in derivation of governing equations of the plates.
It is seen that the thermal postbuckling equilibrium path becomes significantly lower when the temperature dependent properties of materials are taken into consideration, and the effects of temperature dependent material properties increase significantly with increasing deflections.
This work was supported by the National Natural Science Foundation of China (10125212).

As the use of composite materials in such systems increases, so does the complexity of the damage modes present.
In this paper, practical issues of AE testing in wide composite materials are addressed.
For isotropic materials, dispersion curves are independent of angular direction, however this is not the case for anisotropic materials.
The propagation of elastic waves through plate materials differs from those in bulk materials.
This is expected, since the propagation of Lamb waves in isotropic materials is well understood.

Journal of Materials Science 35.6(2000) 1303-1313
Materials Science & Technology 27.9(2011) 1443-1447
Journal of Materials Processing Technology 178.1–3(2006) 34-38
Journal of Minerals & Materials Characterization & Engineering 10.2(2011) 127-141
Materials Science & Engineering A 528.28(2011) 8212-8217

Mechanical Properties of Natural rubber and Chloroprene Rubber Latex Blends XiaoXue Liao 1,2,a, HaiSheng Tan2,MingChao Luo 2, Bing Tang 3,b , ShuangQuan Liao 2and XiaoDi Wei 1 1Ministry of Agriculture Opening  Key Laboratory of Rubber Biology,Chinese Academy of Topical Agricultural Sciences, Danzhou 571737,China; 2College of Materials and Chemistry Engineering, Hainan University, Haikou 570228, China; 3 Agrivultural Product Processing Research Institute,Chinese Academy of Tropoical Agricultural Sciences, Zhan jiang 524001,China aliaoxx26@163.com , btangice2003@163.com Key words: natural rubber latex , chloroprene rubber latex , blend , property Abstract.The effects of the ratios of natural rubber latex (NRL)and chloroprene rubber latex(CRL) and the type of compatibilizer on physical and mechanical properties of latex film were researched.The oil resistance of vulcanized latex film was tested.
Experimental Materials.
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Both the cylinders are made of piezoelectric materials.
Besides, piezoelectric materials (such as piezoelectric ceramic) are a class of transducer materials too [15, 16].
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Smart Materials and Structures, 2002, 11(1), pp. 122-129

The process of radiation crosslinking helps to improve some mechanical properties of polymer materials.
Pharr: Journal of Materials Research 19 (1), (2004), p. 1564 – 1583
Michalik: Archives of Materials Science and Engineering 36 (2), (2009), p. 89-95
Manas, : International Journal of Mathematics and Computers in Simulation [online] Issue 1, Volume 7, (2013), p. 9-16
Krzyzak, : Advanced Materials Research 1001, (2014) pp. 194-198.

Introduction The more intensive development of science and industry requires the application of new materials with specific properties.
The basis for most of these materials is rare metals and their alloys.
Moreover, water, which is from the hydrogen reduction of BTO, is not easy to escape from the bed of the materials.
[3] Avijit Mondal, Anish Upadhyaya and Dinesh Agrawal: International Journal of Refractory Metals and Hard Materials, Vol. 28 (2010), p. 597
[6] Zhen Xiong, Gangqin Shao, Xiaoliang Shi, Xinglong Duan and Li Yan: International Journal of Refractory Metals and Hard Materials, Vol. 26 (2008), p. 242

Kurzydlowski1,c 1 Warsaw University of Technology Faculty of Materials Science and Engineering, Woloska 141, 02-507 Warsaw, Poland akingac@inmat.pw.edu.pl, bmalew@inmat.pw.edu.pl, ckjk@inmat.pw.edu.pl Keywords: hydrostatic extrusion, nano-structured materials, grain refinement, mechanical properties.
Materials and Methods The material used in this study was Al-Zn-Mg-Cu (7475) aluminium alloy.
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