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The research on the (1-x) PZT-x PMN piezoelectric materials Guigui Peng1, a, Shunmin Hu1, b, Deyi Zheng2,3, c 1 Guizhou University, Guizhou Province, China 2Northeastern University,LiaoNing Province,China 3China Zhenhua(GROUP) Science & Technology CO.
Conclusions: In this paper, the influences of the ratio of PMN amounts on the electric properties of the PMNZT materials have been investigated.
Through adjust the ratios of the PMN amounts, the grains size of the PMNZT materials will become fine and the porosity inside the bulk material will decrease.
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The electrochemical properties and structure of prepared materials were illustrated.
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All of them contain a group of selected material models, including the models of nonlinear hyperelastic materials, in their libraries.
However, this software does not offer analysis with a hyperelastic Zahorski material which allows for a more precise determination of the behaviour of rubber and rubberlike materials at significantly higher deformations compared to the widely used materials such as Mooney - Rivlin or neo - Hookean materials.
Selected Hyperelastic Potentials for Incompressible Materials With large deformations, each of rubberlike materials behaves in a specific manner.
With the popularity of hyperelastic incompressible materials (used in different fields of science and technology), Zahorski’s potential allows supplementing the results of calculations obtained previously for Mooney material.
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Table 1 lists the chemical composition of these materials.
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However, the surface roughness tends to decrease with the increase in cutting speed when cutting of ductile materials.
In this study, 45# carbon steel (0.45% carbon) and cast iron were selected as the workpiece materials.
From this figure, it can be seen that the cutting speeds have the same effects on surface roughness for the two kinds of tool materials.
In machining of cast iron, PCBN and Si3N4 based ceramics are most commonly used tool materials [9].
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As a new type of smart materials, the fabrication method of the MRE is still non-unified by now.
Fabrication of MRE Samples Choice of Preparation Materials.
Dynamic Characterization and modeling of magnetorhcological elastomers under compressive loading [J].Smart Materials and Structures.
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Journal of Functional Materials. 2012,3(43)：360-362.References的格式与模板的格式不同，建议按照模板重新排版。

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Yielding is portrayed by plastic flow of the materials when strained.
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